191 15 90MB
English Pages 472 [475] Year 1988
physica status solidi (b) basic research
Volumes 139 to 144
Subject and Author Index 1987 Volumes 99 to 104
AKADEMIE-VERLAG BERLIN VCH PUBLISHERS INC. • NEW YORK/N.Y. ISSN 0370-1972/0031-8965
phys. stat. sol. (b)/(a), Berlin R20 (1987) 1—465
Substance Classification*) 51.
Transition metals and their alloys and compounds (for oxides, see S10) 51.1. Fe 51.2. Other 3d metals 51.3. Noble metals 51.4. Lanthanides SI. 5. Actinides 51.61. Carbides, silicides, germanides 51.62. Nitrides, phosphides, arsenides 51.63. Sulfides, selenides, tellurides 52. Alkali metals and their alloys and compounds (for alkali halides, see S9.11) 53. Alkaline earth metals and their alloys and compounds (for alkaline earth halides, see S9.12) 54. Other metals and their alloys 55. Nonmetallic elements 55.11. Silicon 55.12. Germanium S5.2. Solidified Gases 56. Group IV compounds (for transition metal compounds, see SI.61) 57. Group V compounds (for transition metal compounds, see SI.62) S7.1. III-V compounds 57.11. Phosphides 57.12. Arsenides 57.13. Antimonides 57.15. Mixed crystals 57.16. Higher compounds 58. Chalcogenides (for transition metal compounds, see SI.63) S8.1. II-VI compounds 58.11. Sulfides 58.12. Selenides 58.13. Tellurides 58.15. Mixed crystals 58.16. Higher compounds 59. Halides 59.11. Alkali halides 59.12. Alkaline earth halides 59.15. Mixed crystals 59.16. Higher compounds S10. Oxides SI0.1. Simple oxides SI0.15. Mixed crystals SI 1. Other higher compounds SI 1.1. Salts of oxy-acids SI 1.2. Spinels, garnets, ferrites SI2. Organic compounds SI2.1. Quasi-one-dimensional systems
For comments on the use of the classification scheme see p. 10.
*) Outside the ICSTI Classification for Physics.
physica status solidi (b)
physica status solidi (a)
basic research
applied research
Board of Editors
Board of Editors
P. AIGRAIN, Paris, S. AMELINCKX, Mol-Donk, M. BALKANSKI, Paris, V. L. BONCH-BRUEVICHf, Moskva, M. CARDONA, Stuttgart, W. DEKEYSER, Gent, W. FRANZ, Münster, P. GÖRLICHf, Jena, E. GUTSCHE, Berlin, R. KAISCHEW, Sofia, R. KUBO, Tokio, P. T. LANDSBERG, Southampton, S. LUNDQVIST, Göteborg, L. NÉEL, Grenoble, L. PAL, Budapest, A. PIEKARA, Warszawa, A. SEEGER, Stuttgart, F. SEITZ, New York, F. STÖCKMANN, Karlsruhe, J. TAUC, Providence
S. AMELINCKX, Mol-Donk, J. AUTH, Berlin, H. BETHGE, Halle, K. W. BÖER, Newark, P. GÖRLICH t , Jena, E. GUTSCHE, Berlin, P. HAASEN, Göttingen, G. M. HATOYAMA, Tokyo, C. HILSUM, Malvern, B. T". KOLOMIETS, Leningrad, W. J. MERZ, Zürich, G. O. MÜLLER, Berlin, A. SEEGER, Stuttgart, S. SHIONOYA, Tokio, C. M. VAN VLIET, Montreal, E. P. WOHLFARTH, London
Editor-in-Chief E. GUTSCHE
Editor-in-Chief E. GUTSCHE
Advisory Board
Advisory Board
M. AVEROUS, Montpellier, P. C. BANBURY, Reading, M. BERNARD, Bagneux, W. BRAUER, Berlin, W. COCHRAN, Edinburgh, R. COELHO, Gif-sur-Yvette, R. ENDERLEIN, Berlin, W. HAUBENREISSER, Jena, G. JACOBS, Gent, H.-G. KAHLE, Karlsruhe, E. KROENER, Stuttgart, M. MATYÄS, Praha, H. IX MEG AW, Cambridge, T. S. MOSS, Malvern, E. NAGY, Budapest, E. A. NIEKISCH, Jülich, H. M. ROSENBERG, Oxford, S. SHIONOYA, Tokyo, W. STEINMANN, München, I. M. TSIDILKOVSKII, Sverdlovsk R. VAUTIER, Bellevue/Seine
L. N. ALEKSANDROV, Novosibirsk, W. ANDRÄ, Jen£ H. BÄSSLER, Marburg, E. BAUER, Clausthal-Zellerfeld. G. CHIAROTTI, Rom, H. CURIEN, Paris, R. GRIGOROVICI, Bucharest, J. HEYDENREICH, Halle, F. B. HUMPHREY, Pasadena, A. A. KAMINSKII, Moskva, E. KLIER, Praha, Y. NAKAMURA, Kyoto, J. NIHOUL, Mol, T. N. RHODIN, Ithaca, New York, R. SIZMANN, München, J. STUKE, Marburg, J. T. WALLMARK, Göteborg
SUBJECT AND AUTHOR INDEX Volumes 139 to 144, 1987
Volumes 99 to 104, 1987
ISSN 0370-1972/0031-8965 Edited by E. BORCHARDT
AKADEMIE-VERLAG
BERLIN
and
VCH PUBLISHERS INC. • NEW YORK/N.Y.
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Schriftleiter und verantwortlich für den Inhalt der Zeitschriften: Professor Dr. E. Gutsche. Leipziger Sir. 3 4. Postfach 1233, DDR-1086 Berlin. Herausgeber und verantwortlich für den Inhalt des Registers: Dipl.-Phys. E. Borchardt, Leipziger Str. 3—4, Postfach 1233, DDR-1086 Berlin. Verlag: Akademie-Verlag Berlin, Leipziger Str. 3—4, DDR-1086 Berlin, Fernruf: 223 6221 und 2236229; Telex-Nr.: U 4 4 2 0 ; Bank: Staatsbank der D D R , Berlin, Kto.-Nr.: 6836-26-20712. Veröffentlicht unter der Lizenznummer 1310 und 1620 des Presseamtes beim Vorsitzenden des Ministerrates der Deutschen Demokratischen Republik. Gesamtherstellung: VEB Druckerei „Thomas Müntzer", DDR-5820 Bad Langensalza. Bestellnummer des Registers: 1068/85 R 20. Urheberrecht: All rights reserved (including those of translation into foreign languages). No part of this issue may be reproduced in any form, by photoprint, microfilm or any other means, nor transmitted or translated into a machine language, without written permission from the publishers. © 1988 by Akademie-Verlag Berlin. Printed in the German Democratic Republic. A N (EDV) 20831/20735
Preface The twentieth index volume contains volumes 139 to 144 of "physica status solidi (b) — basic research" as well as volumes 99 to 104 of "physica status solidi (a) — applied research", i.e. all volumes having appeared in 1987 containing 1287 papers. Beginning from January 1986 the International Classification System for Physics (Condensed Matter, items 60 and 70) of the International Council for Scientific and Technical Information, Abstracting Board completed by item 85 and a Substance Classification (both outside the ICSTI Classification for Physics) will be used for quoting papers in physica status solidi. Nevertheless, before taking over these subject classifications into the index volume they were once more carefully revised and in some cases improved and completed in order to get a most uniform and clear classification for all papers. The average number of quotations per paper in this index volume is about 2.7. Again I have to express my thanks to the readers for their interest, and I will always readily take up any critical remarks and proposals for improvements. I am especially obliged to Prof. Dr. E. Gutsche, Dr. H.-J. Hänsch, Dr. H. Lange, Dr. S. Oberländer, and Dipl. Phys. K. Müller for giving me advice and unselfish help. Furthermore I have to thank Mrs. E. Schwan for her exact and reliable secretary's work at the manuscript. Berlin, June 1988 Eva Borchardt
International Classification System for Physics*) 60. Condensed matter : structure, mechanical and thermal properties 61. Structure of liquids and solids; crystallography (see also 68.20. Solid surface structures, 71. Electron states) 61.10. X-ray determination of structures (for specific determinations, see 61.55 to 61.80j 61.12. Neutron determination of structures (for specific determinations, see 61.55 to 61.80) 61.14. Electron determination of structures (for specific determinations, see 61.55 to 61.80) 61.16. Other determination of structures (for specific determinations, see 61.55 to 61.80) 61.20. Classical, semiclassical, and quantum theories of liquid structure (for electronic states, see 71 ; for liquid helium, see 67) 61.25. Studies of specific liquid structures 61.30. Liquid crystals 61.40. .Amorphous and polymeric materials 61.50. Crystalline state (including molecular motions in solids) (for magnetic structure and spin systems, see 75.25) 61.55. Specific structures of elements and alloys 61.60. Specific structures of inorganic compounds 61.65. Specific structures of organic compounds 61.70. Defects in crystals (see also 61.80. Radiation-.damage, 62. Mechanical and acoustical properties, 71.55. Impurities arid defect levels, 76.30. EPR of color centers and other defects, 78.50. Impurity and defect absorption in solids) 61.80. Radiation damage and other irradition effects (for techniques of structure determination, see 61.10 to 61.16; for electron and ion impact phenomena, see 79.20) 61.90. Other topics in structure of liquids and solids 62. Mechanical and acoustical properties of condensed matter (see also 61.70. Defects in crystals, 68.30. Surfaces and interfaces) 62.10. Mechanical properties of liquids (for viscosity of liquids, see also 66.20) 62.20. Mechanical properties of solids (related to microscopic structure) 62.30. Mechanical and elastic waves 62.40. Anelasticity, internal friction, and mechanical resonances For thermomechanical effects, see 65.70 For magnetomechanical effects, see 75.80 For piezoelectric effects, see 77.60 For elasto-optical effects, see 78.20 62.50. High-pressure and shock-wave effects in solids 62.60. Acoustical properties of liquids For lattice dynamics, phonons, see 63 For second sound in quantum fluids, see 67.40 62.65. Acoustical properties of solids For magnetoacoustic effects in metals, see 75.80 For acoustoelectric effects, see 72.50 For acousto-optical effects, see 78.20 62.80. Ultrasonic relaxation (see also 74.30. Ultrasonic attenuation in superconductors) 62.90. Other topics in mechanical and acoustical properties of condensed matter !
) Excerpt, reproduced with permission of International Council for Scientific and Technical Information (ICSTI).
Classification System
5
63. Lattice dynamics and crystal statistics (see also 65. Thermal properties, 66.70. Thermal conduction, 68.30. Dynamics o f surface and interface vibrations, 78.30. Infrared and Raman spectra) 63.10. General theory 63.20. Phonons and vibrations in crystal lattices 63.50. Vibrational states in disordered systems 63.70. Statistical mechanics o f lattice vibrations (see also 65. Thermal properties of condensed matter, and 66.70. Thermal conduction) 63.75. Statistical mechanics of displacive phase-transitions F o r order-disorder and statistical mechanics of model systems, see 64.60 F o r crystallographic aspects of polymorphic and order-disorder transformations, see 61.50 63.90. Other topics in lattice dynamics and crystal statistics
64. Equations of state, phase equilibria, and phase transitions 64.10. General theory o f equations of state and phase equilibria 64.30. Equations o f state of specific substances (see also 65.70. Thermal expansion) 64.60. General studies of phase transitions (for magnetic, superconducting, and quantum fluid critical phenomena, see 75, 74, and 67, respectively) 64.70. Phase equilibria, phase transitions, and critical points o f specific substances 64.75. Solubility, segregation, and mixing 64.80. Other phase properties of systems 64.90. Other topics in equations of state, phase equilibria, and phase transitions
65. Thermal properties o f condensed matter (see also 63. Lattice dynamics; for thermodynamic properties of quantum fluids, see 67.40; for thermal properties of solid helium, see 67.80) 65.20. Heat capacities of liquids 65.40. Heat capacities of solids (for specific heat of superconductors, see 74.30; for specific heat o f magnetic systems, see 75.40) 65.50. Thermodynamic properties and entropy 65.70. Thermal expansion and thermomechanical effects (see also 64.30. Equations of state) For thermal conduction in nonmetallic liquids, see 66.60; for nonmetallic solids, see 66.70 For electronic thermal conduction, see 72.10 and 72.20 F o r thermal conductivity of superconductors, see 74.30 F o r pyroelectric and electrocaloric effects, see 77.70 65.90. Other topics in thermal properties o f condensed matter
66. Transport properties of condensed matter (nonelectronic) 66.10. Diffusion and ionic conduction in liquids 66.20. Diffusive momentum transport (for viscosity o f liquids, see also 62.10) 66.30. Diffusion in solids 66.60. Thermal conduction in nonmetallic liquids (for thermal conduction in liquid metals, see 72.15) 66.70. Nonelectronic thermal conduction and heat-pulse propagation in nonmetallic solids (for thermal conduction in solid metals, see 72.15; for statistical mechanics o f lattice vibrations, see 63.70) 66.90. Other topics in nonelectronic transport properties
6
Classification System
67. Quantum fluids and solids; liquid and solid helium 67.20. Quantum effects on the structure and dynamics of nondegenerate fluids 67.40. Boson degeneracy and superfluidity of heIium-4 67.50. Fermi fluids; liquid helium-3 67.60. Mixed systems; liquid helium-3, -4 mixtures 67.70. Films (including physical adsorption) 67.80. Solid helium and related quantum crystals 67.90. Other topics in quantum fluids (e.g., neutron-star matter)
68. Surfaces and interfaces; thin films and whiskers (for impact phenomena, see 79; for crystals growth, see 61.50) 68.10. Fluid surfaces and fluid-fluid interfaces 68.15. Liquid thin films 68.20. Solid surface structures 68.25. Mechanical and acoustical properties of solid surfaces and interfaces 68.30. Dynamics of solid surfaces and interface vibrations 68.40. Surface energy of solids; thermodynamic properties 68.45. Solid-fluid interface processes 68.48. Solid-solid interfaces (including bicrystals) (for grain boundaries, see 61.70) 68.55. Thin film growth, structure, and epitaxy 68.60. Physical properties of thin films : nonelectronic 68.70. Whiskers and dendrites: growth, structure, and nonelectronic properties 68.90. Other topics in the structure and nonelectronic properties of surfaces and thin films
70. Condensed matter: electronic structure; electrical, magnetic, and optical properties
71. Electronic states (see also 63. Lattice dynamics, 73. Electronic structure and electrical properties of surfaces, interfaces, and thin films) 71.10. General theories and computational techniques 71.20. Electronic density of states determinations (including energy states of liquid semiconductors) (see also 65.40. Electronic heat capacity) 71.25. Nonlocalized single-particle electronic states 71.30. Metal-insulator transitions 71.35. Excitons and related phenomena (including electron-hole drops) 71.36. Polaritons (including photon-phonon and photon-magnon interactions) 71.38. Polarons and electron-phonon interactions (see also 63.20. phonon-electron interactions in lattices) 71.45. Collective effects 71.50. Localized single-particle electronic states (excluding impurities) 71.55. Impurity and defect levels 71.60. Positron states (see also 78.70. Positron annihilation) 71.70. Level splitting and interactions (see also 75.10. — in magnetic phenomena, 75.30. Exchange and superexchange interactions, 73.20. Electronic surface states) 71.90. Other topics in electron states
Classification System
7
72. Electronic transport in condensed matter (for surfaces, interfaces, and thin films, see 73) 72.10. Theory of electronic transport; scattering mechanism 72.15. Electronic conduction in metals and alloys 72.20. Conductivity phenomena in semiconductors and insulators (for nonelectronic conduction, see 66.70) 72.30. High-frequency effects; plasma effects 72.40. Photoconduction and photovoltaic effects; photodielectric effects 72.50. Acoustoelectric effects 72.55. Magnetoacoustic effects 72.60. Mixed conductivity and conductivity transitions 72.70. Noise processes and phenomena 72.80. Conductivity of specific semiconductors and insulators 72.90. Other topics in electronic transport in condensed matter
73. Electronic structure and electrical properties of surfaces, interfaces, and thin films 73.20. Electronic surface states (for emission and impact phenomena, see 79) 73.25. Surface conductivity 73.30. Surface double layers, Schottky barriers, and work functions 73.40. Interfaces 73.60. Electronic properties of thin films 73.90. Other topics in electrical properties of surfaces, interfaces, and thin films
74. Superconductivity 74.10. Occurrence, critical temperature 74.20. Theory 74.30. General properties 74.40. Fluctuations and critical effects 74.50. Tunneling phenomena, Josephson effect, and proximity effects 74.55. Type-I superconductivity 74.60. Type-II superconductivity 74.70. Superconducting materials 74.90. Other topics in superconductivity
75. Magnetic properties and materials 75.10. General theory and models of magnetic ordering (see also 71.25. Nonlocalized single-particle electronic states, 71.70. Level splitting and interactions) 75.20. Diamagnestism and paramagnetism 75.25. Spin arrangements in magnetically ordered materials (neutron studies, etc.) 75.30. Magnetically ordered materials, other intrinsic properties (for critical point effects, see 75.40) 75.40. Critical-point effects, specific heats, short-range order (see also 65.40. Heat capacities) 75.50. Studies of specific magnetic materials 75.60. Domain effects, magnetization curves, and hysteresis 75.70. Magnetic films and plates 75.80. Magnetomechanical and magnetoelectric effects, magnetostriction For galvanomagnetic effects, see 72.15 and 72.20 For magneto-optical effects, see 78.20 75.90. Other topics in magnetic properties and materials
Classification System
8
76. Magnetic resonances and relaxation in condensed matter; Môssbauer effect 76.20. General theory of resonances and relaxation 76.30. Electron paramagnetic resonance and relaxation 76.40. Diamagnetic and cyclotron resonances 76.50. Ferromagnetic, antiferromagnetic, and ferrimagnetic resonances; spin-wave resonance (see also 75.30. Spin waves) 76.60. Nuclear magnetic resonance and relaxation 76.70. Magnetic double resonances and cross effects 76.80. Môssbauer effect; other y-ray spectroscopy 76.90. Other topics in magnetic resonances and relaxation 77. Dielectric properties and materials (for conductivity phenomena, see 72.20 and 72.80) 77.20. Permittivity 77.30. Polarization and depolarization effects 77.40. Dielectric loss and relaxation 77.50. Dielectric breakdown and space-charge effects 77.55. Dielectric thin films 77.60. Piezoelectricity and électrostriction (for piezo-optical effects, see 78.20) 77.70. Pyroelectric and electrocaloric effects 77.80. Ferroelectricity and antiferroelectricity 77.85. Electrical resonances. 77.90. Other topics in dielectric properties and materials 78. Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation (for phonon spectra, see 63) 78.20. Optical properties and materials 78.30. Infrared and Raman spectra and scattering 78.35. Brillouin and Rayleigh scattering 78.40. Visible and ultraviolet spectra 78.45. Stimulated emission 78.50. Impurity and defect absorption in solids 78.55. Photoluminescence 78.60. Other luminescence and radiative recombination For photoconduction and photovoltaic effects, see 72.40 78.65. Optical properties of thin films 78.70. Other interactions of matter with particles and radiation 78.90. Other topics in optical properties of condensed matter and other interactions of matter with particles and radiation 79. Electron and ion emission by liquids and solids; impact phenomena 79.20. Impact pheno'mena, including electron spectra and sputtering 79.40. Thermionic emission 79.60. Photoemission and photoelectron spectra 79.70. Field emission and field ionization 79.75. Exoelectron emission 79.80. Resonance tunneling 79.90. Other topics in emission and impact phenomena in condensed matter 85. Devices**) **) Outside the ICSTI Classification for Physics.
Classification System
Substance Classification (according to physica status solidi) 51.
Transition metals and their alloys and compounds (for oxides, see S10) 51.1. Fe 51.2. Other 3d metals 51.3. Noble metals 51.4. Lanthanides SI. 5. Actinides 51.61. Carbides, silicides, germanides 51.62. Nitrides, phosphides, arsenides 51.63. Sulfides, selenides, tellurides
52.
Alkali metals and their alloys and compounds (for *alkali halides, see S9.ll)
53.
Alkaline earth metals and their alloys and compounds (for alkaline earth halides, see S9.12)
54.
Other metals and their alloys
55.
Nonmetallic elements 55.11. Silicon 55.12. Germanium S5.2. Solidified Gases
56.
Group IV compounds (for transition metal compounds, see SI.61)
57.
Group V compounds (for transition metal compounds, see SI.62) S7.1. III-V compounds 57.11. Phosphides 57.12. Arsenides 57.13. Antimonides 57.15. Mixed crystals 57.16. Higher compounds 58. • Chalcogenides (for transition metal compounds, see SI.63) S8.1. II-VI compounds 58.11. Sulfides 58.12. Selenides 58.13. Tellurides 58.15. Mixed crystals 58.16. Higher compounds 59. Halides 59.11. Alkali halides 59.12. Alkaline earth halides 59.15. Mixed crystals 59.16. Higher compounds S10. Oxides SI0.1. Simple oxides S10.15. Mixed crystals SI 1. Other higher compounds S11.1. Salts of oxy-acids SI 1.2. Spinels, garnets, ferrites S12. Organic compounds S12.1. Quasi-one-dimensional systems For comments on the use of the classification scheme see p. 10.
9
Some Comments on the Use of the Subject and Author Index The "International Classification System for Physics" (the condensed matter sections 60 and 70) completed by a "Substance Classification" (according to physica status solidi) is used. On cover two the second-level headings of the condensed matter sections and on pages 4 to 8 the third-level headings are reproduced. As a help for using the subject index on pages 11 and 12 in addition also a series of important fourth-level headings is given. The substance classification is published on cover three and on page 9. All papers will be quoted under each relevant section. There is made a distinction between one or two principal entries (refering to the main subject matter of the paper) and secondary entries (refering to subsidiary subject matter and substance, respectively).In the principal entries the title of the paper is given in its original language and in English. In addition, every principal entry is marked by * in front of the title of the paper. In the secondary entries the title is only given in English. On the line following the title the subject classification is given (in parantheses) in the same manner as in the volumes. Each entry gives the volume, the number of the issue, the initial and final page numbers, and the year in which the paper appeared. A paper of physica status solidi (b) or physica status solidi (a) is marked by (b) or (a) in front of the line, respectively. The letter " K " before the page numbers indicates' a short note published in the offset part of the journal. Review articles appear, at the head of the list of entries under a given subject and are marked. These articles are listed in the chronological order of their publication, irrespective of being a paper of physica status solidi (b) or physica status solidi (a). The subject classification for a review article consisting of several parts is based on the article as a whole rather than on the individual parts. The entries for original papers, short notes, and errata are made together in a single list for each subject and follow the entries for review articles. These are'again ordered according to data of publication, irrespective of being a paper of physica status solidi (b) or physica status solidi (a). Original papers are sometimes published in several parts under the same principal title (in general with special subtitles). The various parts of papers of this type are treated separately and each part is classified according to its particular contents. In quoting errata the following rule is obeyed. If the erratum refers to a paper quoted in the preceding index, it is listed in the chronological order of its publication otherwise the erratum is quoted together with the paper to which it refers. The author index gives the names of the authors in alphabetical order. Each name is followed by the bibliographic details of the paper. A paper of physica status solidi (b) or physica status solidi (a) is again marked by (b) or (a) in front of the number of the volume, respectively. In the last column the subject classification of the paper is presented in the same manner as in the volumes. When several papers have been published by the same author they are arranged according to the dates of publication, irrespective of being a paper of physica status solidi (b) or physica status solidi (a). To find a paper of your interest please choose first the special entry of the subject index and then use the volume number and page.
Some Comments on the Use of the Subject and Author Index
11
In using the subject index attention should be given to the following details : 61.10 to 61.16 Theory and experimental techniques of determination of structures — for specific determinations see 61.55 to 61.80 61.16 Other determination of structures — electron microscopy and field-ion microscopy determinations — EPR and N M R determinations 61.25 Studies of specific liquid structures — macromolecular and polymer solutions — molten salts — liquid metals 61.40 Amorphous and polymeric materials — glasses, polymers, elastomers, plastics 61.50 Crystalline state (including molecular motions in solids) — physics of crystal growth — crystal symmetry: models, space groups, crystalline systems and classes — crystal morphology and orientation — crystallographic aspects of polymorphic and order-disorder transformations 61.70 Defects in crystals — grain and twin boundaries — stacking faults and other planar or extended defects — doping and implantation of impurities — impurity concentration, distribution, and gradients 61.80 Radiation damage and other irradiation effects — channeling, blocking, energy loss of particles — X-rays, y-rays, electrons and positrons, neutrons, atoms and molecules, ions — for ion implantation see 61.70 63.20 Phonons and vibrations in crystal lattices — phonon-phonon, phonon-electron, and phonon-defect interactions 64.60 General studies of phase transitions — order-disorder and statistical mechanics of model systems — equilibrium properties near single critical points, critical exponents — dynamic critical phenomena — multicritical points — metastable phases 64.80 Other phase properties of systems — stoichiometry and homogeneity — microstructure 66.30 Diffusion in solids — theory of diffusion and ionic conduction in solids — self-diffusion and ionic conduction in non-metals — diffusion, migration, and displacement of impurities and other defects 71.25 Nonlocalized single-particle electronic states — techniques of band-structure calculation — measurement of Fermi surface parameters (including dHvA, magnetoacoustic, positron annihilation, and cyclotron resonance studies, etc.) — effective mass and g-factors — band structure of crystalline metals, semiconductors, and insulators 71.45 Collective effects — exchange, correlation, dielectric and magnetic functions, plasmons — Fermi-Thomas models — calculations of total electronic binding energy 71.70 Level splitting and interactions — crystal and ligand fields — spin-orbit coupling, Zeeman, Stark, and strain splitting — exchange interactions — nuclear states and interactions
12
Some Comments on the Use of the Subject and Author Index
72.10 Theory of electronic transport; scattering mechanism — general formulation of transport theory — scattering by phonons, magnons, and other nonlocalized excitations — scattering by point defects, dislocations, surfaces, and other imperfections (including Kondo effect) 72.15 Electronic conduction in metals and alloys — galvanomagnetic and other magnetotransport effects — thermomagnetic and thermoelectric effects — collective modes — scattering mechanism and Kondo effect 72.20 Conductivity phenomena in semiconductors and insulators — scattering mechanism — piezoresistance — galvanomagnetic and other magnetotransport effects — thermomagnetic and thermoelectric effects 73.40 Interfaces — contact resistance, contact potential, rectification — tunneling: general — p-n junctions — MIS, M I M , MSM, SIS, and SMS structures 75.30 Magnetically ordered materials, other intrinsic properties — saturation moments and magnetic susceptibility — spin waves — exchange and superexchange interactions — anisotropy — magnetic impurity interactions — magnetic phase boundaries — magnetocaloric effect 75.50 Studies of specific magnetic materials — ferromagnetism — antiferromagnetics, ferrimagnetics — amorphous magnetic materials — magnetic liquids 75.60 Domain effects, magnetization curves, and hysteresis — high coercitivity materials — fine-particle systems — magnetic aftereffects — magnetic annealing and temperature-hysteresis effects 78.20 Optical properties and materials — general theory — optical constants and parameters — optical rotatory power — birefringence — piezo-, elasto-, acousto-, electro-, magneto-, and thermo-optical effects 78.60 Other luminescence and radiative recombination — electroluminescence — cathodo- and iono-luminescence — thermoluminescence — sono- and tribo-luminescence — chemiluminescence 78.70 Other interactions of matter with particles and radiation — positron annihilation — X-ray scattering, absorption, and emission — microwave and radiofrequency (including resonances) 79.20 Impact phenomena, including electron spectra and sputtering — electron impact : Auger and secondary emission — atom, molecule, and ion impact — atomic and molecular beam interactions
Subject Index 60. Condensed matter: structure, mechanical and thermal properties (see also 68.20. Solid surface structures,
71. Electron
states)
61.10. X-ray determination of structures (for specific determinations,
see 61.55 to
61.80)
P . H . BEZIRGANYAN a n d V . S. HAROUTYUNYAN
*On the Interference Effect Arising in the Bicrystal X-Ray Interferometer with Wedge-Shaped Gap. I. Plane Wave Theory (61.10) (a) Vol. 99, No. 1, p. 3 7 - 4 6 (1987). H . LOFFLER, G . WENDROCK, a n d K . PAWELZYK
The Influence of Small Mg Additions on the Stability of Guinier-Preston Zones in Al-4.5 a t % Zn-x Mg Alloys (61.55; 61.10; 64.70; S4) (a) Vol. 99, No. 1, p. 7 3 - 8 0 (1987). V . S. HAROUTYUNYAN a n d P . H . BEZIRGANYAN
*On the Interference Effect Arising in the Bicrystal X-Ray Interferometer with Wedge-Shaped Gap. II. Spherical Wave Theory (61.10) (a) Vol. 99, No. 2, p. 329-338 (1987). J . B ^ K - M I S I U K , J . GRONKOWSKI, J . HARTWIG, a n d W . WIERZCHOWSKI
*X-Ray Spherical-Wave Diffraction in the Bragg Case for Bent Si Crystals (61.10; 61.55; S5.1I; SI0.1) (a) Vol. 99, No. 2, p. 345-351 (1987). V . HOLY a n d K . T . GABRIELYAN
•Dyson and Bethe-Salpeter Equations for Dynamical X-Ray Diffraction in Crystals with Randomly Placed Defects (61.10; 61.70) (b) Vol. 140, No. 1, p. 39—50 (1987). N . MATTERN, J . HENKE, M . REIBOLD, a n d H . HERMANN
Study of the Structure of Annealed Amorphous Fe^Ni^P^Bg (61.40; 61.10; SI. 1) (a) Vol. 100, No. 1, p. 37—46 (1987).
Subject Index 60. Condensed matter: structure, mechanical and thermal properties (see also 68.20. Solid surface structures,
71. Electron
states)
61.10. X-ray determination of structures (for specific determinations,
see 61.55 to
61.80)
P . H . BEZIRGANYAN a n d V . S. HAROUTYUNYAN
*On the Interference Effect Arising in the Bicrystal X-Ray Interferometer with Wedge-Shaped Gap. I. Plane Wave Theory (61.10) (a) Vol. 99, No. 1, p. 3 7 - 4 6 (1987). H . LOFFLER, G . WENDROCK, a n d K . PAWELZYK
The Influence of Small Mg Additions on the Stability of Guinier-Preston Zones in Al-4.5 a t % Zn-x Mg Alloys (61.55; 61.10; 64.70; S4) (a) Vol. 99, No. 1, p. 7 3 - 8 0 (1987). V . S. HAROUTYUNYAN a n d P . H . BEZIRGANYAN
*On the Interference Effect Arising in the Bicrystal X-Ray Interferometer with Wedge-Shaped Gap. II. Spherical Wave Theory (61.10) (a) Vol. 99, No. 2, p. 329-338 (1987). J . B ^ K - M I S I U K , J . GRONKOWSKI, J . HARTWIG, a n d W . WIERZCHOWSKI
*X-Ray Spherical-Wave Diffraction in the Bragg Case for Bent Si Crystals (61.10; 61.55; S5.1I; SI0.1) (a) Vol. 99, No. 2, p. 345-351 (1987). V . HOLY a n d K . T . GABRIELYAN
•Dyson and Bethe-Salpeter Equations for Dynamical X-Ray Diffraction in Crystals with Randomly Placed Defects (61.10; 61.70) (b) Vol. 140, No. 1, p. 39—50 (1987). N . MATTERN, J . HENKE, M . REIBOLD, a n d H . HERMANN
Study of the Structure of Annealed Amorphous Fe^Ni^P^Bg (61.40; 61.10; SI. 1) (a) Vol. 100, No. 1, p. 37—46 (1987).
Subject Index
14 R . GERMER
•X-Ray Topography with a Semiconductor TV System (61.10; S5.ll) (a) Vol. 100, No. 1, p. 4 7 - 5 1 (1987). P . ZAUMSEIL, U . WINTER, F . CEMBALI, M . SERVIDORI, a n d Z . SOUREK
Determination of Dislocation Loop Size and Density in Ion Implanted and Annealed Silicon by Si- * mulation of Triple Crystal X-Ray Rocking Curves (61.70; 61.10; S5.ll) (a) Vol. 100, No. 1, p. 9 5 - 1 0 4 (1987). P . H . BEZIRGANYAN a n d A . P . AIVAZYAN
•Application of the Invariance Principle for the Diffraction of X-Rays in Real Crystals (61.10) (a) Vol. 100, No. 2, p. 3 8 9 - 4 0 0 (1987). C. COURSEILLE, C. H A U W , A . MÉRESSE, and M . Couzi The Imma (b) Vol. 142, No. 2, p. K165-K168 (1987). R.
and G . Pozzi 'Observations of Magnetic Domains in Thin Films by Electron Holography with a Commercial TEM with FEG (61.16 and 75.70; Sl.l) (a) Vol. 102, No. 2, p. K.127-K.129 (1987).
FABBRI, G . MATTEUCCI,
M . JIRSA, V . KAMBERSKY, A . KOLODRUBEC, a n d M . NEVRIVA
FMR Modes of the Bubble Domain Lattice in Garnet Films Magnetized along the Normal (76.50; 75.60; 75.70; SI 1.2) (a) Vol. 103, No. 1, p. 219-230 (1987). A . DUDA
•The Influence of Next-Nearest-Neighbour Exchange Coupling on the Spin-Wave Resonance Spectrum in Uniaxial Ferromagnetic Thin Films (75.70; 75.30; 76.50) (b) Vol. 143, No. 2, p. 709-716 (1987).
75.80. Magnetomechanical and magnetoelectric effects, magnetostriction For galvanomagnetic effects, see 72.15 an 72.20 For magneto-optical effects, see 78.20 I. RETAT
Plastic Deformation of Fe-Ni and Fe 65 (Ni 1 _ i Mn jt ) 35 between 30 and 460 K. Magnetically Induced Invar Hardening (62.20; 75.80; S l . l ; S1.2) (a) Vol. 99, No. 1, p. 121-130 (1987). K . TERAO a n d M . SHIMIZU
Electronic Structure and Magnetism of AFe 2 Compounds with C14 and C15 Laves Structures (71.25 and 75.50; 75.80, Sl.l) (b) Vol. 139, No. 2, p. 485-497 (1987). O . KOHMOTO a n d N . YAMAGUCHI
•Shift of Peak Position in n~T Curves for Amorphous FeCo-SiB Alloys Having Zero Magnetostriction (75.50 and 75.80; S l . l ; S1.2) (a) Vol. 100, No. 1, p K 6 1 - K 6 5 (1987). A . WEGRZYN, L . T . BACZEWSKI, a n d Z . OBUSZKO
•Magnetization and Magnetostriction of Iron-Rich (Fe,_ Jt Co :t ) 90 Zr 10 Metallic Glasses (75.80; Sl.l ;S1.2) (a) Vol. 100, No. 2, p. K.181-K184 (1987).
Subject Index
206 I . F . G R I B A N O V a n d E . A . ZAVADSKII
*Magnetovolume Effects in MnAs. Role of Space Spin Correlations (75.80; SI.62) (b) Vol. 142, No. 2, p. 5 5 9 - 5 6 8 (1987).
A . W ^ G R Z Y N a n d L . T . BACZEWSKI
*Effect of Pressure on Magnetization in Fe-Rich Iron-Nickel-Zirconium Amorphous Alloys (75.80; SI.1;S1.2) (a) Vol. 102, No. 2, p. 7 6 9 - 7 7 2 (1987).
N . B . KOBELEV, Y A . M . SOIFER, V . G . SHTEINBERG, a n d Y u . B . LEVIN
*"Giant" A£-Effect and Magnetochemical Damping in Amorphous Ferromagnetic Ribbons (75.80; SI.I) (a) Vol. 102, No. 2, p. 7 7 3 - 7 8 0 (1987).
Y u . G . SEMENOV
Interaction of a Localized Spin Moment with Phonons Due to Exchange Scattering of Virtual Carriers in Semiconductors (75.30; 75.80; 76.20; S8.1) (b) Vol. 143, No. 2, p. 7 1 7 - 7 2 6 (1987).
76.30. Electron paramagnetic resonance and relaxation
207
76. Magnetic resonances and relaxation in condensed matter; Mossbauer effect 76.20. General theory of resonances and relaxation T . L . BUISHVILI a n d N . P . F O K I N A
T h e Enhancement of the Low Frequency Susceptibility for Quadrupolar Splittings at Low Temperatures (76.20) (b) Vol. 140, No. 1, p. K 7 5 - K 7 8 (1987).
Y u . G . SEMENOV
Interaction of a Localized Spin Moment with Phonons Due to Exchange Scattering of Virtual Carriers in Semiconductors (75.30; 75.80; 76.2Q; S8.1) (b) Vol. 143, No. 2, p. 7 1 7 - 7 2 6 (1987).
76.30. Electron paramagnetic resonance and relaxation S. W A P L A K , J . M I N G E , a n d T . KRAJEWSKI
*EPR Studies of the Low-Temperature Phase Transition in L i K S 0 4 by SO4 and CrO^" Centres (64.60 and 76.30; SI 1.1) (a) Vol. 99, No. 1, p. K 2 7 - K 3 0 (1987).
G . S . P A T R I N , G . A . PETRAKOVSKII, a n d V . V . R U D E N K O
*Photoinduced Change of Magnetic Resonance in F e B 0 3 Single Crystals (76.30; SI 1.1) (a) Vol. 99, No. 2, p. 6 1 9 - 6 2 3 (1987).
J . KREISSL a n d D . B A C K S
*EPR-Investigations on Mn-Doped CVD-Grown ZnS Thin Film Layers (76.30; S8.ll) (a) Vol. 99, No. 2, p. K l 1 7 - K 1 2 0 (1987).
D . BOULANGER a n d R . PARROT
•Spin-Lattice Coupling Coefficients of M n 2 + in ZnSe (76.30; S8.12) (b) Vol. 140, No. 1, p. K 7 9 - K 8 2 (1987).
B. RAY, P . A . MONSEF MIRZAI, a n d J . W . BRIGHTWELL
Fluorescence and ESR in CaS : Mn 2 + (71.55; 76.30; 78.55; S8) (a) Vol. 100, No. 1, p. 2 3 3 - 2 3 7 (1987).
Subject Index
208 J . K . RATH a n d S. RADHAKRISHNA
.
EPR Studies of M o O j " Centres in KDP Single Crystals (77.80; 76.30; SI 1.1) (a) Vol. 100, No. 1, p. 331-336 (1987).
A . GARCIA-CABANES, C . PRIETO, a n d L . ARIZMENDI
X-Ray Damage in LiTa0 3 (61.80; 76.30; SI 1.1) (a) Vol. 100, No. 1, p. K 9 - K 1 2 (1987). K . MATSUURA, S . KISHIDA, a n d I. TSURUMI
Annealing of the F + EPR Centers and the 2.3 and 2.9 eV Optical Absorption Band in Zinc Sulfide Crystals (61.70; 76.30; 78.50; S8.ll) (b) Vol 140, No. 2, p. 3 4 7 - 354 (1987). L . FIRLEJ. A . GRAJA, A . RAJCHEL, K . W O £ N I A K , a n d T . M . KRYGOWSKJ
The 7,7', 8,8'-Tetracyano-p-Quinodimethanide Salt of the N-n Propyl Quinoxalinium Cation — Its Structure, Conductivity, and Triplet Spin Excitons (61.50 and 72.80; 76.30; S12.1) (b) Vol. 140, No. 2, p. 437—447 (1987). H . - E . MULLER, G . VOLKEL, W . BRUNNER, P . CEVC, a n d I. N . KURKIN
•Electron Spin Relaxation in Ferroelastic KH 3 (Se0 3 ) 2 (76.30 and 77.80; SI 1.1) (b) Vol. 141, No. 1, p. 343-349 (1987). HUANG MING
•High-Order Perturbation Formula for the EPR Trigonal Symmetric Parameter D of d 2 (d 8 ) Ions and the Determination of the NiCl 2 Crystal Structure (61.60 and 76.30; S9) (b) Vol. 141, No. 1, p. K 1 - K 6 (1987). A . RAZZAQ, C . A . HOGARTH, a n d K . A . K . LOTT
* A Study of Electron Spin Resonance in Thin Films of Silicon Monoxide with Cerium Oxide (76.30; S10.15) (b) Vol. 141, No. 1, p. K 6 1 - K 6 5 (1987). K . BIELECKI, Z . KRUCZYNSKI, a n d S . I . FARCAS
•On New Results of Cr 3 + EPR in Potassium Aluminium Alum Crystals (76.30; SI 1) (b) Vol. 141, No. 1, p. K 6 7 - K 7 0 (1987). Structure and Cu + + EPR of Y'-Pb 3 V 2 0 8 (61.60; 64.70; 76.30; S10) (a) Vol. 101, No. 1, p. 3 7 - 4 3 (1987). M . V . SIMONYAN, E . A . KAFADARYAN, M . C H . NURUANYAN, A . K . PETROSYAN, a n d E . G . SHAROYAN
•ESR, Optical Absorption and Reflection Spectra of Monoclinic and Triclinic-Modifications of Lead Phthalocyanine (76.30 and 78.20; 78.30; S12.1) (a) Vol. 101, No. 1, p. 143-149 (1987).
76.30. Electron paramagnetic resonance and relaxation
209
A . HAMAIDA a n d J . MARGERIE
Measurement of Oscillator Strengths of " F 2 A " Centres in M e F 2 : A + (Me = Ca, Sr; A + = L i + , N a + , 4 Kv) (61.70; 76.30; 78.50; S9.12) (b) Vol. 141, No. 2, p. 3 9 1 - 3 9 8 (1987).
M . ONODA a n d H . NAGASAWA
Phase Transition and Bipolaron Formation in Quasi-One-Dimensional Conductor ß-Ag^VjOj (64.60 and 71.38; 76.30; 76.70; S i l ) (b) Vol. 141, No. 2, p. 5 0 7 - 5 1 6 (1987).
M . HERGET, A . HOFSTAETTER, T . NICKEL, a n d A . SCHARMANN
Reorientation of Hole Centers in C a W 0 4 Monitored by EPR and Optical Absorption (71.38 and 71.70; 76.30; 78.50; SI 1.1) (b) Vol. 141, No.2, p. 5 2 3 - 5 2 8 (1987).
C . WEBER, M . WAGNER, a n d E . SIGMUND
•Flexibility Options in Valency-Mixing Jahn-Teller Systems (71.70 and 76.30; SI.4) (b) Vol 141, No. 2, p. 5 2 9 - 5 3 9 (1987).
ZHENG W E N - C H E N
•Separation of Cubic and Axial Parts of the Crystal Field from Hydrostatic and Uniaxial Pressure Dependences of the Parameter ao (76.30; 71.70; SI 1.1) (b) Vol. 141, No. 2, p. K.121—K124(1987).
T . N . SAIRAM a n d S . V . BHAT
*EPR Study of Mn 2 + Doped Dicalcium Barium Propionate Single Crystals under Hydrostatic Pressure (76.30; 64.70; S12) (b) Vol. 141, No. 2, p. K 1 3 3 - K 1 3 8 (1987).
and A . K . PAL EPR Studies on Phase Transitions in Copper Tetramethylammonium Bromide (64.60; 76.30; S9) (a) Vol. 101, No. 2, p. 4 0 3 - 4 0 8 (1987).
M . DAS
J . MINGE, S . WAPLAK, a n d T . KRAJEWSKI
EPR Study of Low-Temperature Phase Transitions in NH 3 + -Doped L i K S 0 4 (64.70; 76.30; SI 1.1) (a) Vol. 101, No. 2, p. 4 2 7 - 4 3 5 (1987).
ZHOU Y I - Y A N G
EPR Study of C u 2 + Ion in K 2 Cd(S0 4 ) 2 • 6 H 2 0 (71,70; 76.30; S i l ) (b) Vol. 142, No. 1, p. 2 2 9 - 2 3 5 (1987). 14 physica, Reg.-Bd. 20
210
Subject Index
A L . NICULA a n d E . CULEA
•Determination of the Distribution Widths of the Spin Hamiltonian Parameters of V 4 + Ions from Oxide Glasses (76.30; 61.40; S10.15) (b) Vol. 142, No. 1, p. 2 6 5 - 2 7 0 (1987).
M . SOUIRI, A . GOLTZENE, a n d C . SCHWAB
"The Environment of Muonium in Solids. An Empirical Approach (76.30; 76.90) (b) Vol. 142, No. 1, p. 271 - 2 7 8 (1987).
DEYAN H E , FANGQING ZHANG, JINGZHONG C U I , a n d GUANGHUA CHEN
Interface Defects in Sputtered a-Si: H / a - C : H Multilayers (73.40; 76.30; 79.20; S5; S5.11) (b) Vol. 142 No. 1, p. K 3 5 - K 3 7 (1987).
J . KURIATA, L . SADLOWSKI, J . WALCZAK, a n d E . FILIPEK
•Temperature Dependence of the E P R Linewidth of C r V 0 4 (75.50 and 76.30; SI 1.1) (b) Vol. 142, No. 1, p. K 7 3 - K 7 7 (1987).
G . ELBERS, S. REMME, a n d G . LEHMANN
EPR and Optical Absorption of Cr* + in CsCl and CsBr (61.70; 76.30; 78.50; S 9 . l l ) (b) Vol. 142, No. 2, p. 3 6 7 - 3 7 7 (1987).
W . ULRICI, J . KREISSL, A . VASSON, A . M . VASSON, a n d M . EN-NAQADI
Photoinduced Recharging Phenomena and Vanadium-Related Centres in GaAs: V (71.55; 76.30; 78.50; S7.12) (b) Vol. 143, No. 1, p. 1 9 5 - 2 0 6 (1987).
J . KREISSL, W . GEHLHOFF, a n d W . ULRICI
»Electron Paramagnetic Resonance of Titanium in G a P (71.55 and 76.30; S 7 . l l ) (b) Vol. 143, No. 1, p. 2 0 7 - 2 1 5 (1987).
WEN-CHEN ZHENG
Theoretical Calculations of EPR Parameters and Absorption Spectra in Chromium-Doped a - L i I 0 3 Crystals and Determination of Local Compressibilities (71.70; 62.20; 76.30 ; 78.50; SI 1.1) (b) Vol. 143, No. 1, p. 2 1 7 - 2 2 3 (1987).
J . M . DANCE, J . P . CHAMINADE, J . M . MOUTOU, a n d M . POUCHARD
•Spectroscopic and Magnetic Characterization of the Copper-Tungsten Oxyfluoride C u W 0 3 F 2 (75.30 and 76.30; 78.20; S9.16) (b) Vol. 143, No. 1, p. K 5 7 - K . 6 1 (1987).
76.30. Electron paramagnetic resonance and relaxation
211
P . WÜNSCHE, R . KUNZE, a n d M . WÄSCHE
Activation Energy Distribution in Poly-(Methylmethacrylate-Methacrylic Acid) Estimated by EPR and Thermoluminescence (65.90; 76.30; 78.60; S12) (a) Vol. 103, No. 1, p. 1 4 5 - 1 5 2 (1987).
E . K . SADYKOV a n d A . I . SKVORTSOV
*On the Theory of Double G a m m a Electronic Magnetic Resonance in Paramagnetic Systems (76.30; 76.80) (b) Vol. 143, No. 2, p. 6 9 9 - 7 0 7 (1987).
A . STESMANS
•Interaction between Localized and Delocalized States Indicated from Temperature-Dependent ESR Study of Submetallic P-Doped Si (76.30; 71.25; S5.ll) (b) Vol. 143, No. 2, p. 7 3 3 - 7 4 0 (1987).
Y . R A V I SEKHAR a n d H . BILL
• 2 S Ground State Ions in Ionic Crystals: ESR Results (76.30; 61.70; S9.12; S10) (b) Vol. 143, No. 2, p. K111 - K114 (1987).
O . T H I E M A N N a n d O . F . SCHIRMER
•Microwave Electric Field Induced ESR of N i 2 + in LiNbO s (76.30; SI 1.1) (b) Vol. 143, No. 2, p. K 1 1 5 - K 1 1 8 (1987).
B . M I L S C H a n d F . KERBE
*EPR of Chromium and Manganese Ions in Beryllium- Oxide Ceramics (76.30; S10) (a) V o l . 103, N o . 2, p. K 1 4 1 - K 1 4 4 (1987).
XIAO-PENG H E a n d M A O - L U D U
•An EPR Study of the Structure of the Cr 3 + -Vacancy Centre in MgO (76.30; S10.1) (b) Vol. 144, No. 1, p. K 5 1 - K 5 6 (1987).
Y u . N . O R L O V , V . I . A L E S H I N , G . E . A R K H A N G E L S K » , V . E . B O Z H E V O L N O V , Y U . V . V O R O N O V , L . N . IVANOV, V . V . KARELIN, a n d E . I. SAUNIN
Concentration Peculiarities of a Set of Impurity Centres in Fluorite Crystals Activated by Gadolinium (61.70; 76.30; 78.60; S9.15) (b) V o l . 144, N o . 2, p. K 7 7 - K 8 0
(1987).
N . GUSKOS
•An Interpretation of the Electric Field Effect on Cubic Gd 3 + Centers in BaF 2 Single Crystals (76.30; 71.70; S9.12) (b) Vol. 144, No. 2, p. K 1 3 9 - K 1 4 2 (1987).
14*
Subject Index
212 76.40. Diamagnetic and cyclotron resonances J . ROSE a n d R . SCHUCHARDT
A Pseudopotential Band Structure Calculation of Bismuth, Antimony, and Their Alloys (71.25; 71.30); 76.40; S4) (b) Vol. 139, No. 2, p. 499-518 (1987).
K . PASTOR a n d TRIBOULET
•A Model for Persistent Cyclotron Resonance in Pure n-CdTe (72.40 and 76.40; S8.13) (a) Vol. 100, No. 1, p. K 5 1 - K 5 6 (1987).
H . - U . MÜLLER, F . L U D W I G , a n d R . HERRMANN
•Cyclotron Resonance in the n-Inversion Layer of InSb Grain Boundaries (72.20 and 76.40; S7.13) (b) Vol. 142, No. 1, p. K 6 9 - K 7 1 (1987).
V . I. GATALSKAYA, E . M . GOLOLOBOV, a n d L . A . KUROCHKIN
•Annealing Effect on Charge Carrier Scattering in Irradiated Silicon from Cyclotron Resonance Data (61.80 and 76.40; S5.ll) (b) Vol. 142, No. 2, p. K105-K108 (1987).
76.50. Ferromagnetic, antiferromagnetic, and ferrimagnetic resonances; spin-wave resonance (see also 75.30. Spin waves) V . S . LUTOVINOV
•The Long-Wavelength Magnon Relaxation in Ferromagnetic Metals at T g T c (76.50; 75.50) (b) Vol. 139, No. 1, p. 299-305 (1987).
H . GARTNER a n d Z . FRAIT
•The Influence of Ion Plating of Nickel on Amorphous Magnetic Alloy as Detected by Ferromagnetic and Antiferromagnetic Resonance (75.50 and 76.50; S 1.2) (a) Vol. 99, No. 1, p. K 5 7 - K 5 9 (1987).
Z . FRAIT, D . FRAITOVA, N . ZARUBOVA, a n d P . D U H A J
•Magnetic Surface Anisotropy and Ferromagnetic Resonance in a Stress Annealed FeNiB Amorphous Alloy (76.50; 75.30; S l . l ; SI.2) (a) Vol. 101, No. 1, p. 239-245 (1987).
76.60. Nuclear magnetic resonance and relaxation
213
D . I. SEMENTSOV a n d V . V . SIDORENKOV
Ferromagnetic Resonance in Films with Angular Dispersion of Magnetic Anisotropy (75.70; 76.50; SI. 1; S1.2) (a) Vol. 101, No. 2, p. 555-562 (1987).
J . BASZYNSKI
Magnetic Surface Anisotropy of the Fe-Cu Interface in Superlattices (75.50 and 75.70; 76.50; Sl.l ; SI.2) (b) Vol. 142, No. 2, p. K165-K168 (1987).
M . JIRSA, V . KAMBERSKY, A . KOLODRUBEC, a n d M . NEVSIVA
*FMR Modes of the Bubble Domain Lattice in Garnet Films Magnetized along the Normal (76.50; 75.60; 75.70; SI 1.2) (a) Vol. 103, No. 1, p. 219-230 (1987).
A . DUDA
The Influence of Next-Nearest-Neighbour Exchange Coupling on the Spin-Wave Resonance Spectrum in Uniaxial Ferromagnetic Thin Films (75.70; 75.30; 76.50) (b) Vol. 143, No. 2, p. 709-716 (1987).
H . BOSSE a n d H . GARTNER
*A Systematic Ferromagnetic Resonance Study of Fe-, Ni-, and Cr-Ion Plated Amorphous Ribbons (75.50 and 76.50; S l . l ; S1.2) (a) Vol. 103, No. 2, p. 565-570 (1987).
76.60. Nuclear magnetic resonance and relaxation H . FIGIEL, A . C . BARATA, a n d A . P . GUIMARAES
* 5 9 Co NMR and Nuclear Magnetic Relaxation Study of the Magnetic Superconductor Y 9 Co 7 (76.60; SI) (b) Vol. 139, No. 1, p. 311-314(1987).
F . ENGELKE, D . MICHEL, W . WINDSCH, a n d J . PETERSSON
* 2 D NMR Study near the Ferroelectric Phase Transition of TSCC (76.60 and 77.80; SI 2) (b) Vol. 139, No. 2, p. 609-617 (1987).
B . M . BOLOTOV, D . A . AKSENOV, A . I. POLYAKOV, a n d S . P . SENSHIN
• N M R Line Shape Function Analysis in Solids (76.60; S4; S9.ll; S9.12) (b) Vol. 139, No. 2, p. K137-K140 (1987).
R . G o c a n d D . FIAT
• N M R Powder Spectrum Simulation for Nuclei with I > 1/2 (76.60) (b) Vol. 140, No. 1, p. 243-250 (1987).
214
Subject Index
K . V E N U , V . S . S . SASTRY, a n d J . RAMAKRISHNA
•Molecular Dynamics in [(CH 3 ) 4 N] 2 CdI 4 . A Proton Magnetic Relaxation Study (76.60; 63.90; S9.16) (b) Vol. 140, No. l , p . 251-259(1987). D . A . AKSENOV, B . M . BOLOTOV, A . I . POLYAKOV, a n d H . V . CHASNIKOVA
*On the Change of the Dipolar Shape of the NMR Line by Quadrupolar Interaction (76.60 ;S4) (b) Vol. 140, No. 1, p. K 5 1 - K 5 4 (1987). J . T R I T T - G O C , N . PISLEWSKI, a n d R .
Goc
•NMR Study of Flip Motion of the Water Molecules in SNP (76.60; Sil) (a) Vol. 100, No. 1, p. K 5 7 - K 5 9 (1987).
M . DUBIEL a n d D . E H R T
Nuclear Magnetic Resonance Investigations of the Structure of Fluorophosphate Glasses (61.40; 76.60; SI 1) (a) Vol. 100, No. 2, p. 415-422 (1987).
P . LABORDE, G . VILLENEUVE, a n d J . M . R E A U
NMR Study of the Mobility of Fluor Ions in Pb, _ I Bi l O jt F 2 _ ;( Solid Solutions (66.30; 76.60; S9) (b) Vol. 141, No. 2, p. 379-390 (1987).
C . JÄGER, S . B A R T H , A . F E L T Z , a n d G . SCHELER
»Studies of the Structure of Mixed Crystals of the System Na 1+2jc Mg J( Zr 2 _. [ (P0 4 ) 3 by (76.60; 61.60; Sil.1) (a) Vol. 102, No. 2, p. 791-802 (1987).
31
P-MAS-NMR
E . H . B R A N D T a n d R . MESSER
*Muon-Spin Resonance in Metals. RF-Field Penetration, Diffusion, and Trapping Effects (76.60) (b) Vol. 144, No. 1, p. 343—350 (1987).
M . A . B. WHITAKER
»General Principles of Spin-Echo Formation in Solids (76.60) (b) Vol. 144, No. 2, p. 793-807 (1987).
E . V . SHEMETOV, K . S . ALEKSANDROV, I . P . ALEKSANDROVA, a n d S . V . PRIMAK
* 127 I NQR Study of the Phase Transition Sequence in Cs 2 CdI 4 (64.70 and 76.60; S9.16) (a) Vol. 104, No. 2, p. K 8 9 - K 9 2 (1987).
Y . ITO, T . A S A I I , a n d D . NAKAMURA
»Structural Phase Transition a n d ' H NMR Spin-Lattice Relaxation in Pyridinium Hexachlorotellurate (IV) Crystals (64.70 and 76.60; S12) (a) Vol. 104, No. 2, p. K 9 7 - K 1 0 0 (1987).
76.80. Mossbauer effect; other "/-ray spectroscopy
76.70. Magnetic double resonances and cross effects
A . DAVITULIANI, M . KIKNADZE, R . MIRIANSHVILI, a n d T . SANADZE
*RFDS Studies of Trigonal Er 3 + Centres in BaF 2 Single Crystals (76.70; S9.12) (b) Vol. 140, No. 1, p. K 6 9 - K 7 3 (1987).
M . ONODA a n d H . NAGASAWA
Phase Transition and Bipolaron Formation in Quasi-One-Dimensional Conductor ß-Ag x V 2 0 5 (64.60 and 71.38; 76.30; 76.70; Sil) (b) Vol. 141, No. 2, p. 507-516 (1987).
V . P . MEIKLYAR, A . E . USACHEV, a n d Y U . V . YABLOKOV
•ENDOR of the Yb 3 + Ion in Cs 2 NaYCl 6 Crystal (76.70; SU) (b) Vol. 141, No. 2, p. K129-K132 (1987).
76.80. Mossbauer effect; other y-ray spectroscopy
A . OSTRASZ a n d M . SZUSKIWICZ
3d-Like Electron Localization and Charge Transfer in Hydrogenated V Fe Alloys (71.25; 61.55; 76.80; SI.1;S1.2) (b) Vol. 139, No. 1, p. 205-211 (1987).
J. Li and B. X. Liu > *CEMS to Characterize the Ion Induced Fe-Mo Metastable Phase (64.60 and 76.80; SI; Sl.l) (a) Vol. 99, No. 1, p. K 3 1 - K 3 4 (1987).
J . FONTCUBERTA
Lattice Dynamics Study of Polycrystalline (63.20; 76.80; S10.1) (b) Vol. 139, No. 2, p. 379-386 (1987).
57
CoO by Mossbauer Spectroscopy
A . R . MKRTCHYAN, R . G . GABRIELYAN, A . H . MARTIROSSIAN, a n d A . S H . GRIGORYAN
•y-Quantum Resonance Scattering in a Plane-Parallel Isotropic Layer (76.80) (b) Vol. 139, No. 2, p. 583-595 (1987).
216
Subject Index
W . ZYCH
•The Dependence of the Hyperfine Magnetic Field in Amorphous Alloys of the Type Fe 80 _ ;[ TM l B 20 on TM, x, and Temperature (75.50; 76.80; SI.1) (a) Vol. 99, No. 2, p. K125-K130 (1987).
S . M . DUBIEL
Changes in the 119 Sn-Site Hyperfine Field of Iron Induced by Substitutional Vanadium and Chromium (71.70; 76.80; SI.1) (b) Vol. 140, No. 1, p. 191-202(1987). J . K . SRIVASTAVA, K . MURALEEDHARAN, a n d
-
R . VWAYARAGHAVAN
Entropic Ferrimagnetism of FeNiCr0 4 System (75.50; 76.80; SI 1.2) (b) Vol. 140, No. 1, p. K 4 7 - K 5 0 (1987).
M . BUDZYNSKI,
O . I. KOCHETOV,
M . SUBOTOWICZ,
H . NIEZGODA,
H . SPUSTEK,
and
W . TANSKA-KRUPA
Influence of Hydrogenation on the Hyperfine Interactions in (Y0 9 7 Hf 0 03)Fe2 (75.20; 75.25; 75.50; 76.80; S I . 1 ; S1.4) ( b ) V o l . 140, N o . 2, p. 5 8 9 - 5 9 4 (1987).
J . K . SRIVASTAVA, K . MURALEEDHARAN, a n d R . VUAYARGHAVAN
•Anomalous Mossbauer Lineshapes in Mixed Spinel Ferrite Gao 6 Feo 4 NiCr0 4 (75.30 and 76.80; S11.2) (b) Vol. 140, No. 2, p. K137-K139 (1987). A . K . GEORGIEV, M . A . MISHEVA, a n d G . K H . TOUMBEV
Study of HfC>(N03)2 • 2 H 2 0 (65.90 and 76.80; Sil) (a) Vol. 101, No. 1, p. K 1 9 - K 2 1 (1987).
•TDPAC
A . MEAGHER a n d Q . A . PANKHURST
•Electric Field Gradient in a-FeOOH (76.80; S10) (a) Vol. 101, No. 1, p. K 7 3 - K 7 6 (1987).
T . M . ZHANTIKIN, A . K . ZHETBAEV, M . F . VERESHCHAK, a n d Z . T . SERIKBAEVA
Mossbauer Investigations of Radiation Damage in Ni 3 Fe (61.80; 7 6 . 8 0 ; S I . 1; S I . 2 ) ( a ) Vol. 101, N o . 2, p . 3 6 1 - 3 7 0 (1987).
L . DOBRZYNSKI, T . GIEBULTOWICZ, M . KOPCEWICZ, M . PIOTROWSKI, a n d K . SZYMANSKI
•Neutron and Mossbauer Studies of Fe 3 _ x Al,Si Alloys (61.55 and 76.80; Sl.l) (a) Vol. 101, No. 2, p. 567-575 (1987).
T . P . SINHA, S . N . CHOUDHARY, a n d K.. K . P . SRIVASTAVA
Effect of Orbit-Lattice Interaction on Mossbauer Quadrupole Splitting of Iron (II) in Fe(p-CH 3 C 6 H 4 S0 3 ) 2 (71.70; 76.80; SI 1) (b) Vol. 142,-No. 1, p. 221-227 (1987).
76.80. Mössbauer effect; othery-ray spectroscopy
217
E . I. VAPIREV, K . I. BOURIN, I. D . CHRISTOSKOV, L . T . TSANKOV, a n d P . S . KAMENOV
•Random Motion Studied by Time Delayed Mossbauer Spectroscopy (76.80) (b) Vol. 142, No. 1, p. 279-285 (1987).
E . KOLAWA, T . TYLISZCZAK, B . D . SAWICKA, J . A . SAWICKI, a n d M . DRWIEGA
Studies of Local Structure and Thermal Annealing Processes in Implanted Iron-Gadolinium Alloys by Conversion Electron Mössbauer Spectroscopy (61.40; 61.70; 76.80; SI. 1; S1.4) (a) Vol. 102, No. 1, p. 181-192 (1987). A . OSTRASZ a n d M . SZUSKIEWICZ
•Comment on the Magnetic Moments Formation in Hydrogenated V-Fe Alloys (76.80; SI.2) (b) Vol. 142, No. 2, p. K173-K176 (1987). J . K . SRIVASTAVA, S . MURALIDHARA R A O , R . NAGARAJAN, a n d R . VIJAYARAGHAVAN
•Mössbauer Effect, Ionic Conductivity, and Ionic Thermoconductivity Studies of Ionic Spin Fluctuations in the Magnetically Ordered F e 3 + : N i T i 0 3 System (76.80; 66.30; S10.15) (a) Vol. 102, No. 2, p. 759-768 (1987). H . JEX a n d U . MÜLLER
X-Ray Brillouin Scattering of Mössbauer Radiation by an Oscillating Quartz Crystal (63.20 and 78.35; 76.80; S10.1) (b) Vol. 143, No. 1, p. 317-324 (1987). I. SLEDZINSKA
•Electric Field Gradient in Ferrous Oxalate Dihydrate (76.80; Sil) (b) Vol. 143, No. 1, p. K 6 3 - K 6 6 (1987). A . HAUET, J . TEILLET, B . HANNOYER, a n d M . LENGLET
•Mössbauer Study of Co and Ni Ferrichromites (76.80; 75.50; SI 1.2) (a) Vol. 103, No. 1, p. 257-261 (1987). E . K . SADYKOV a n d A . I. SKVORTSOV
On the Theory of Double Gamma Electronic Magnetic Resonance in Paramagnetic Systems (76.30; 76.80) (b) Vol. 143, No. 2, p. 699-707 (1987). C s . SZELES, K . SÜVEGH, Z . HOMONNAY, a n d A . V£RTES
Positron Lifetime and Mössbauer Spectroscopy Study of Vacancy-Tin Interaction in Dilute Al-Sn Alloys (61.70; 76.80; 78.70; S4) (a) Vol. 103, No. 2, p. 397-401 (1987). A . I. C . PERSIANO a n d R . D . RAWLINGS
*A Mössbauer Investigation of Equiatomic FeCo with Vanadium and Niobium Additions (75.50 and 76.80; SI.1;S1.2) (a) Vol. 103, No. 2, p. 547-556 (1987).
218
Subject Index
T . STAPINSKI, E . J A P A , a n d J . Z U K R O W S K I
* l l 9 Sn Mössbauer Investigation of Cadmium-Tin-Oxide Thin Films (68.55 and 76.80; S10.1) (a) Vol. 103, No. 2, p. K 9 3 - K 9 8 (1987).
C . GIOVANELLA, M . I A N N U Z Z I , F . G A U Z Z I , G . PETROCCO, G . P R I N C I P I , a n d P . Q . Z H A N G
•Production of Structurally and Magnetically Disordered Fe 2 0 Cu 8 0 Metastable Alloys (76.80; SI.1 ; S1.2) (a) Vol. 103, No. 2, p. K.125-K129 (1987). G . VOGL
On the Motion of Solute Atoms in Cages and Loops in Metal Lattices Studied with Nuclear Methods (61.70; 66.30; 76.80; S I ; SI.3; S4) (b) Vol. 144, No. 1, p. 2 5 9 - 2 6 9 (1987).
F . AUBERTIN, G . L . W H I T T L E , S . J . CAMPBELL, a n d U . GONSER
Hydrogen-Induced Magnetism in Zr 3 Fe Hydrides (75.30; 61.10; 76.80; SI.1) (a) Vol. 104, No. 1, p. 3 9 7 - 4 0 2 ( 1 9 8 7 )
I. D É z s i , H . ENGELMANN, U . G O N S E R , a n d G . L A N G O U C H E
Cobalt-Germanium Structures Investigated by Mòssbauer Spectroscopy (61.55; 61.80; 76.80; SI.16; S5.12) (a) Vol. 104, No. 1, p. 4 1 7 - 4 2 6 (1987).
M . MIGLIERINI a n d J . SITEK
"LOW Temperatures Mössbauer Study of Amorphous Fe 8 3 B (76.80; 75.25; SI.1) (a) Vot. 104, No. 2, p. K 1 3 7 - K 1 3 9 (1987).
76.90. Other topics in magnetic resonances and relaxation
M . SOUIRI, A . G O L T Z E N E , a n d C . S C H W A B
The Environment of Muonium in Solids. An Empirical Approach (76.30; 76.90) .(b) Vol. 142, No. 1, p. 2 7 1 - 2 7 8 (1987).
S . N . KONYAEV, A . I . SHUSHIN, L . I . KOLESNIKOVA, M . M . TRIBEL, a n d E . L . FRANKEVICH
Fluorescence-Detected Low Field Resonances in T - T Annihilation in the A-TCNB Single Crystal (71.35; 76.90; 78.55; S12) (b) Vol. 142, No. 2, p. 4 6 1 - 4 7 1 (1987).
H . PINKVOS a n d C H . S C H W I N K
Muon Spin Rotation Spectroscopy in Metallic Spin Glass Systems (75.40; 76.90) (b) Vol. 144, No. 1, p. 3 5 1 - 3 6 0 (1987).
219
77. Dielectric properties and materials
77. Dielectric properties and materials (for conductivity phenomena, see 72.20 and 72.80) 77.20. Permittivity L . SIRDESHMUKH, G . SATHAIAH, a n d P . D E V I
•Dielectric Properties of the K C l - K B r Mixed Crystal System (77.20 and 77.40 ;S9.15) (a) Vol. 99, No. 2, p. 631 - 6 3 9 (1987). M . K . T E N G , J . F . VITTORI, M . MASSOT, a n d S. ZIOLKIEWICZ
•Dielectric and Ferroelectric Properties in As^Sbj.JSI Mixed Crystals (77.20 and 77.80; S9.16) (a) Vol. 99, No. 2, p. 6 4 1 - 6 4 7 (1987). G . M . S . SRIVASTAVA, R . K . S I N H A , a n d J . SHANKER
•Interrelationship between Higher-Order Elastic Constants and Pressure Derivatives of Dielectric Constants for Ionic Crystals (62.20 and 77.20; S9.11) (b) Vol. 140, No. 1, p. 8 9 - 9 5 (1987). J. MONECKE
•Material Constants of Composites. I. General Theory for the Dielectric Constant (77.20) (b) Vol. 140, No. 1, p. 2 7 9 - 2 8 7 (1987). A . B A T ANA a n d J . F A O U R
•Study of the Pressure Dependence of Dielectric Properties of Ionic Crystals with the Exchange-Charge Model (77.20; 9.11) (b) Vol. 140, No. 1, p. K 8 7 - K 9 0 (1987). A . K . PRADHAN a n d R . N . P . CHOUDHARY
•Dielectric Properties of S m A s 0 4 and Y A s 0 4 (77.20 and 77.40; SI 1.1) (a) Vol. 100, No. 1, p. 3 2 3 - 3 2 6 (1987) H . KRESSE a n d P . RABENSTEIN
•Geometrical Aspects and Dipole-Dipole Interaction in a Liquid Crystalline Mixture (61.25 a n d 77.20; S12) ( a ) V o l . 1 0 0 , N o . 1, p . K 8 3 - K 8 5
(1985).
H . KRESSE, W . WEISSFLOG, C . N A G A B H U S H A N , a n d S . S H A S H I D H A R
•Dipole-Dipole Interactions in Swallow-Tailed Liquid Crystalline Mixtures (77.20; S12) (a) Vol. 101, No. 1, p. K 7 7 - K 7 9 (1987). A . V O H R A , R . V E R M A , K . N . LAKSHMINARAYAN, a n d K . K . SRIVASTAVA
•Dielectric Parameters for Planar Samples of Non-Conducting and Semiconducting Solid Powders at Microwave Frequencies (77.20 ;S8) (a) Vol. 101, No. 1, p. K 8 1 - K 8 5 (1987).
220
Subject Index
V . KUMAR
•Bond Suseptibility and Ionicity in A n l B v C 4 V I Compounds (61.50 and 77.20; S10; S10.1) (b) Vol. 141, No. 2, p. K157-K162 (1987).
U . SUBRAMANIAN a n d M . L . MUKHERJEE
•Dielectric Studies of CaF 2 : Nd Single Crystals from RT to 350 °C (77.20 and 77.40; S9.12) (a) Vol. 101, No. 2, p. 577-581 (1987). L. Bosr A Simple Theory for Forecasting the Melting Temperature of Alkali Halides and of Alkaline-Earth Oxides (64.70; 77.20; S9.LL; S10.1)
(a) Vol. 101, No. 2, p. K111-K114 (1987).
T . FERNÁNDEZ-DÍAZ, C . PRIETO, a n d J . L . MARTÍNEZ
•Low Frequency Dielectric Response in KTa 0 9 2 Nb 0 (77.20; S10) (a) Vol. 102, No. 1, p. K 5 3 - K 5 6 (1987).
08O3
K . BHOI, K . V . RAO, a n d A . V . KRISHNA RAO
•Study of Space Charge Processes in High Electric Field Treated Rutile Single Crystals Using Dielectric Measurements (77.20 a n d 77.40; SI0.1) (a) V o l . 102, N o . 2, p. K 1 3 1 - K 1 3 6 (1987).
Y . R . REDDY a n d L . SIRDESHMUKH
•Dielectric Behaviour of Bi12SiO20 (77.20 and 77.40; S10) (a) Vol. 103, No. 2, p. K157-K160 (1987).
B. NARASIMHA, K . V . RAO, a n d R . N . P . CHOUDHARY
•Study on Dielectric Dispersion of Neodymium Phosphate Ceramics (77.20 and 77.40; SI 1.1) (a) Vol. 104, No. 2, p. 849 - 8 5 3 (1987).
77.30. Polarization and depolarization effects B . V . EGOROV, I. B. EGOROVA, a n d M . A . KRIVOGLAZ
The Electronic Heterogenous States in Ferroelectric Semiconductors (71.25 and 77.80; 65.50; 77.30) (b) Vol 139, No. 1, p. 173-184 (1987).
E . G . SALMAN, G . V . PEROV, a n d V . N . VERTOPRAKHOV
•Ionic Current Study in Thermally Grown Silicon Dioxide Films on Polycrystalline Silicon (73.40 and 77.30; 77.55; S10.1) (a) Vol. 99, No. 2, p. 537-542 (1987).
77. Dielectric properties and materials
221
L . WENDLER a n d R . PECHSTEDT
Dynamical Screening, Collective Excitations, and Electron-Phonon Interaction in Heterostructures and Semiconductor Quantum Wells. Application to Double Heterostructures (71.38 and 71.45; 68.30; 73.40; 77.30; 78.65; S7.12; S7.15) (b) Vol. 141, No. 1, p. 129-150 (1987).
J . PRAKASH a n d A . K . NISHAD
•Prediction of ITC Parameters at the Required Heating Rate (77.30 and 77.40) (a) Vol. 101, No. 2, p. 629—637 (1987).
M . L . MUKHERJEE a n d R . CAPELLETTI
X-Ray Induced Relaxation Band Due to Higher Aggregates in KCl: Pb (61.70; 77.30; 78.50; S9.ll) (b) Vol. 142, No. 2, p. 361-366 (1987).
L . N . KANTOROVICH
Multipole Theory of the Polarization of Solids by Point Defects. IV. Electronic and Spatial Structure of Single Electronic and Hole Centers and Their Pairs in LiF, KCl Crystals (71.55; 77.30; S9.ll) (b) Vol. 144, No. 2, p. 719-726 (1987).
77.40. Dielectric loss and relaxation L . SIRDESHMUKH, G . SATHAIAH, a n d P . DEVI
•Dielectric Properties of the KCl-KBr Mixed Crystal System (77.20 and 77.40; S9.15) (a) Vol. 99, No. 2, p. 631-639 (1987).
T . V . NARASAIAH a n d R . N . P . CHOUDHARY
Dielectric and Thermal Properties of T1D 2 P0 4 (77.80; 77.40; SI 1.1) (a) Vol. 100, No. 1, p. 3 Ì 7—321 (1987).
A . K . PRADHAN a n d R . N . P . CHOUDHARY
•Dielectric Properties of SmAs0 4 and YAsO, (77.20 and 77.40; SI 1.1) (a) Vol. 100, No. 1, p. 323-326 (1987).
U . SUBRAMANIAN a n d M . L . MUKHERJEE
•Dielectric Studies of CaF 2 :Nd Single Crystals from RT to 350 °C (77.20 and 77.40; S9.12) (a) Vol. 101, No. 2, p. 577-581 (1987).
222
Subject Index
J . PRAKASH a n d A . K . N I S H A D
*Prediction of ITC Parameters at the Required Heating Rate (77.30 and 77.40) (a) Vol. 101, No. 2, p. 6 2 9 - 6 3 7 (1987).
K . BHOI, K . V . RAO, a n d A . V . KRISHNA RAO
*Study of Space Charge Processes in High Electric Field Treated Rutile Single Crystals Using Dielectric Measurements (77.20 and 77.40; S10.1) (a) Vol. 102, No. 2, p. K 1 3 1 - K 1 3 6 (1987).
M . R . DE LA F U E N T E , M . A . P E R E Z J U B I N D O , J . D . SOLIER, a n d M . J . T E L L O
T h e Memory Effect in Empirical Descriptions of Dielectric Relaxation (77.40) (b) Vol. 143, No. 1, p. 2 9 9 - 3 0 6 (1987).
Y . R . R E D D Y a n d L . SIRDESHMUKH
»Dielectric Behaviour of Bi 12 SiO 20 (77.20 and 77.40; S10) (a) Vol. 103, No. 2, p. K 1 5 7 - K 1 6 0 (1987).
B . S . BERRY a n d W . C . P R I T C H E T
"Computer Modeling of Relaxation Peaks Involving a Gaussian Distribution of Activation Energies (62.40 and 77.40) (b) Vol. 144, No. 1, p. 3 7 5 - 3 8 4 (1987).
M . R . DE LA F U E N T E , M . A . P E R E Z J U B I N D O , R . B A L D A , a n d M . J . T E L L O
•Influence of Dipolar Interactions on the Dynamical Dielectric Response (77.40; 77.80) (b) Vol. 144, No. 2, p. 8 2 5 - 8 3 3 (1987).
B . NARASIMHA, K . V . R A O , a n d R . N . P . C H O U D H A R Y
•Study on Dielectric Dispersion of Neodymium Phosphate Ceramics (77.20 and 77.40; SI 1.1) (a) Vol. 104, No. 2, p. 8 4 9 - 8 5 3 (1987).
77.50. Dielectric breakdown and space-charge effects V . P . G R I B K O W S K I I , A . L . G U R S K I I , G . A . PASHKEVICH, a n d G . P . YABLONSKII
•Crystallographic Orientation of Electric Discharges in T e 0 2 and LiNbO s Monocrystals (77.50; 63.20; S10.1; SI 1.1) (a) Vol. 103, No. 2, p. K I 5 3 - K I 5 6 (1987).
77. Dielectric properties and materials
223
77.55. Dielectric thin films E . G . SALMAN, G . V . PEROV, a n d V . N . VERTOPRAKHOV
Ionic Current Study in Thermally Grown Silicon Dioxide Films on Polycrystalline Silicon (73.40 and 77.30; 77.55; SI0.1) (a) Vol. 99, No. 2, p. 5 3 7 - 5 4 2 (1987).
R . SINGH, J . M . KELLER, a n d S. C . D A T T
•Thermally Stimulatd Current and Charge Decay Studies in Polypropylene (77.55; S12) (a) Vol. 100, No. 1, p. 1 4 3 - 1 4 7 (1987).
PAN JIN-SHENG
*Electron-Phonon Interaction in Dielectric Interface Systems (77.55; 68.30; 71.38) (b) Vol. 140, No. 2, p. 4 2 1 - 4 3 6 (1987).
M . V . R . REDDY, J . S. KUMAR, K . N . REDDY, a n d U . V . S. RAO
•Dielectric Properties of N a Y F 4 Thin Films (77.55; S9.16) (a) Vol. 102, No. 1, p. 321-326(1987).
N . SASI, C . BALASUBRAMANIAN, a n d S . K . NARAYANDASS
Structure, Dielectric, and A C Conduction Studies on Germanium Dioxide Thin Films (68.55 and 73.60; 77.55; S10.1) (a) Vol. 103, No. 2, p. 4 7 5 - 4 8 0 (1987).
77.70. Pyroelectric and electrocaloric effects Y . A . BADR, S. B . E L - G I Z I R I , a n d T . M . HAMMAD
On the Effect of Doping on the Mechanism of Phase Transition of Some Ionic Inorganic Compounds (64.70 and 77.80; 72.80; 77.70; SI 1.1) (a) Vol. 100, No. 2, p. 4 6 7 - 4 7 2 (1987).
T . ASAJI, M . T A Y A, a n d D . NAKAMURA
•Pyroelectricity of Meta-Substituted Nitrobenzenes m - X C 6 H 4 ( N 0 2 ) (X = N H 2 , Br, CI) (77.70; S12) (a) Vol. 102, No. 2, p. 8 1 5 - 8 1 8 (1987).
B . W Y N C K E a n d F . BREHAT
Ferroelectric Properties of a K N 0 3 Single Crystal. Application to the Detection of Thermal Radiation (77.80; 77.70; SI 1.1) (a) Vol. 104, No. 2, p. 8 7 3 - 8 7 7 (1987).
224
Subject Index
77.80. Ferroelectricity and antiferroelectricity B . V . EGOROV, I. B . EGOROVA, a n d M . A . KRIVOGLAZ
•The Electronic Heterogeneous States in Ferroelectric Semiconductors (71.25 and 77.80; 65.50; 77.30) (b) Vol. 139, No. 1, p. 173-184 (1987). J . M . WESSELINOWA
•Deuteration Dependence of the Central Peak in KDP-Type Ferroelectrics (77.80) (b) Vol. 139, No. 1, p. 329-335 (1987).
S. AHMED, A . M . SHAMAH, R . KAMEL, a n d Y . BADR
Structural Changes of(NH 4 J 2 S0 4 Crystals (64.70; 77.80; SU.L) (a) Vol. 99, No. 1, p. 131-140 (1987). F . ENGELKE, D . MICHEL, W . WINDSCH, a n d J . PETERSSON
• 2 D NMR Study near the Ferroelectric Phase Transition of TSCC (76.60 and 77.80; S12) (b) Vol. 139, No. 2, p. 609-617 (1987).
M . K . TENG, J . F . VITTORI, M . MASSOT, a n d S . ZIOLKIEWICZ
•Dielectric and Ferroelectric Properties in A s ^ S b ^ S I Mixed Crystals (77.20 and 77.80; S9.16) (a) Vol. 99, No. 2, p. 641-647 (1987). T . V . NARASAIAH a n d R . N . P . CHOUDHARY
•Dielectric and Thermal Properties of T1D 2 P0 4 (77.80; 77.40; SI 1.1) (a) Vol. 100, No. 1, p. 317-321 (1987).
K . BIEDRZYCKI a n d B . KOSTUREK
•Thermally Stimulated Electron Emission from Triglycine Sulphate Crystals with Weil-Defined Initial Domain Structure (77.80 and 79.40; S12) (a) Vol. 100, No. 1, p. 327-330 (1987).
J . K . RATH a n d S . RADHAKRISHNA
•EPR Studies of M o O | " Centres in KDP Single Crystals (77.80; 76.30; SI 1.1) (a) Vol. 100, No. 1, p. 331-336 (1987).
G . KOSCHEK a n d E . KUBALEK
•Rasterelektronenmikroskopische Direktabbildung von ferroelektrischen Domänen in BaTi0 3 Keramiken durch Sekundärelektronen und Kathodolumineszenz (Scanning Electron Microscope Direct Imaging of Ferroelectric Domains in BaTiOj Ceramics by Secondary Electrons and Cathodoluminescence) (77.80; 78.60) (a) Vol. 100, No. 1, p. 355-368 (1987).
77. Dielectric properties and materials
225
Y . A . BADR, S. B . E L - G I Z I R I , a n d T . M . HAMMAD
•On the Effect of Doping on the Mechanism of Phase Transition of Some Ionic Inorganic Compounds (64.70 and 77.80; 72.80; 77.70; SI 1.1) (a) Vol. 100, No. 2, p. 467-472 (1987).
W . OSAK a n d K . TKACZ
•Long-Lasting Relaxation Currents in TGS (77.80; SI2) (a) Vol. 100, No. 2, p. 667-672 (1987).
H . - E . MÜLLER, G . VÓLKEL, W . BRUNNER, P . CEVC, a n d I. N . KURKIN
'Electron Spin Relaxation in Ferroelastic KH 3 (Se0 3 ) 2 (76.30 and 77.80; SI 1.1) (b) Vol. 141, No. 1, p. 343-349 (1987).
V . I . VORONKOVA a n d V . K . YANOVSKII
The Structure and Ferroelectric Properties of Layered Compounds in the System Bi 4 Ti 3 0 1 2 -Bi 2 W0 6 (61.60; 64.70; 77.80; S10.15) (a) Vol. 101, No. 1, p. 4 5 - 5 0 (1987).
W . OSAK a n d K . TKACZ
•An Improved Way of Obtaining I-U Characteristics of Ferroelectrics (77.80; S12) (a) Vol. 101, No. 1, p. 263-266 (1987).
J . M . WESSELINOWA
•Relaxation Time for KDP- and DKDP-Type Ferroelectrics (77.80; SI 1.1) (b) Vol. 142, No. 1, p. K 8 5 - K 8 9 (1987).
R . STYROWIEC a n d W . A . SYSLO
•The Simultaneous Effect of Electric Field and Mechanical Stress on the Domain Walls of Rochelle Salt Crystals ' (77.80; SI 1) (a) Vol. 102, No. 1, p. K 4 9 - K 5 1 (1987).
S. S. BAWA, A . M . BIRADAR, a n d S. CHANDRA
•Molecular Reorientation Process and Non-Linear Polarization Reversal Current in Helicoidal Ferroelectric Crystal DOBAMBC (77.80; SI2) (a) Vol. 102, No. 2, p. 829-834 (1987).
M . A . GAFFAR, M . M . MEBED, a n d A . ABU EL-FADL
•The Specific Heat of Pure and Doped Triglycine Sulphate Single Crystals (65.40 and 77.80; S12) (a) Vol. 103, No. 2, p. 459-466 (1987). IS physica, Reg.-Bd. 20
226
Subject Index
M . R . DE LA FUENTE, M . A . PEREZ JUBINDO, R . BALDA, a n d M . J . TELLO
Influence of Dipolar Interactions on the Dynamical Dielectric Response (77.40 ; 77.80) (b) Vol. 144', No. 2; p. 825-833 (1987).
U . DÖBLER a n d H . H A P P
Infrared Investigation of Phase Transitions in CsHS0 4 (78.30; 63.20; 77.80; Sil.1) (b) Vol. 144, No. 2, p. 853-862 (1987).
B . WYNCKE a n d F . BREHAT
•Ferroelectric Properties of a KNO, Single Crystal. Application to the Detection of Thermal Radiation (77.80; 77.70; SI 1.1) (a) Vol. 104, No. 2, p. 873-877 (1987).
M . A . GAFFAR, M . M . MEBED, a n d A . A B U - E L - F A D L
•Thermal Diffusivity of Pure and Doped TGS Crystals (77.80; S12) (a) Vol. 104, No. 2, p. 879-884 (1987).
78.20. Optical properties and materials
227
78. Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation (for phonon spectra, see 63)
78.20. Optical properties and materials
J . BULLOT a n d M . P . SCHMIDT
Physics of Amorphous Silicon-Carbon (Review Article) (61.40; 71.20; 71.55; 72.40; 73.60 ; 78.20; 78.55; 78.60; S6) (b) Vol. 143, No. 2, p. 345—418 (1987).
A . MASLOWSKA
The Burstein Absorption Edge Structure in Lead Chalcogenides (71.25; 71.38; 78.20; S8) (b) Vol. 139, No. 1, p. 161-171 (1987).
S . F . CHEHAB a n d J . C . WOLLEY
Energy Gap and Valence Band Structure of Cdj _ x Mn ;t Te 1 _ >Sey Alloys (71.25; 78.20; S8.15) (b) Vol. 139, No. 1, p. 213-222 (1987).
G . M A N Z K E , K . HENNEBERGER, a n d V . M A Y
Many-Exciton Theory for Multiple Quantum-Well Structures (71.35; 78.20; S7.12; S7.15) (b) Vol. 139, No. 1, p. 233-239 (1987).
R . SOMMERFELDT, R . A . R U P P , H . VORMANN, a n d E . KRATZIG
Thermal Fixing of Volume Phase Holograms in LiNb0 3 : Cu (66.30; 78.20; Sll.l) ( a ) V o l . 9 9 , N o . 1, p . K 1 5 - K . 1 8 ( 1 9 8 7 ) .
T . KESSLER, R . M A R K U S , H . NÄHME, a n d N . SCHWENTNER
•Nonlinear Excitation of Pure and Doped Rare Gas Crystals (78.20; 71.35; 78.55; S5.2) ( b ) V o l . 139, N o . 2, p. 6 1 9 - 6 2 5 (1987).
Y u . M . SEIDOV a n d A . M . SULEIMANOV
To the Theory of Two-Magnon Absorption of Light by Surface Collective Excitations in the SingletTriplet Ferromagnets (71.70; 75.30; 78.20; S1.4) (b) Vol. 140, No. 1, p. 149—154 (1987).
G . CZAJKOWSKI a n d P . SCHILLAK
•Interference Spectra of Semiconducting Slabs at Excitonic Resonances Studied by Stahl's Coherent Wave Approach to Band Gap Electrodynamics (78.20; 71.35; S8.ll; S8.12) (b) Vol. 140, No. 1, p. 273-278 (1987). 15*
Subject Index
228 A . STAHL a n d D . FRANK
•Dynamics of Phonon-Assisted Optical Interband Processes in Semiconductors (78.20; 71.25; 71.36) (b) Vol. 140, No. 1, p. 301-310(1987). P . G6RSKI a n d W . KUCHARCZYK
•On the Measurement of the Quadratic Electrooptic Effect in Noncentrosymmetric Crystals (78.20; SI 1.1) (a) Vol. 100, No. 1, p. K.73-K76 (1987). CHEN NANDON a n d G U XUERONG
•On the Optical Anomaly of LiNb0 3 above Room Temperature (78.20; SI 1.1) (a) Vol. 100, No. 1, p. K 7 7 - K 8 0 (1987). V . HONIG a n d A . THOMAS
•Optical Constants of Ag 2 Se in the Visible Spectral Range (78.20; S8) (a) Vol. 100, No. 1, p. K 8 1 - K 8 2 (1987). Erratum (a) Vol. 101, No. 2, p. K183 (1987). L . K . SAMANTA
•On Some Properties of I 2 -rV-VI 3 Compounds (78.20; S8.16) (a) Vol. 100, No. 1, p. K 9 3 - K 9 7 (1987). M . HACSKAYLO
•A Frequency Shift of Light at an Optical Boundary (78.20; 79.20) (a) Vol. 100, No. 2, p. 6 5 3 - 6 5 7 (1987). Z . KUCERA
•Dispersion of the Refractive Index of Hg^^Cd^Te (78.20; S8.15) (a) Vol. 100, No. 2, p. 6 5 9 - 6 6 5 (1987). U . BEHN a n d H . ROPPISCHER
•Effect of Back-Surface Reflection on the Electroreflectance Spectra of GaAs (78.20; S7.12) (b) Vol. 141, No. 1, p. 3 2 5 - 332 (1987). M . V . SIMONYAN, E . A . KAFADARYAN, M . C H . NURUANYAN, A . K . PETROSYAN, a n d E . G . SHAROYAN
•ESR, Optical Absorption and Reflection Spectra of Monoclinic and Triclinic Modifications of Lead Phthalocyanine (76.30 and 78.20; 78.30; S12.1) (a) Vol. 101, No. 1, p. 143-149 (1987). K . T . ANTONOVA, G . SCHIRMER, V . A . YAKOVLEV, a n d G . N . ZHIZHIN
•Influence of Thermal Annealing on the Optical Properties of Crystalline Quartz after Oxygen and Nitrogen Ion Irradiation (78.20; 61.80; S10.1) (a) Vol. 101, No. 1, p. 2 4 7 - 2 5 2 (1987).
78.20. Optical properties and materials
229
M . ZALUZNY a n d W . OKULSKI
•On the Interband Absorption in Size-Quantized Bi Films (78.20 and 78.65; 71.25; S4) (b) Vol. 141, No. 2, p. 427-434 (1987). C z . KOEPKE
•Cavityless Optical Bistability in Thin Sprayed CdS Films (78.20; S8.11) (b) Vol. 141, No. 2, p. K139-K142 (1987). M . I. STRASHNIKOVA, V . Y A . REZNICHENKO, a n d V . V . CHERNY
•Size Effect in the Refractive Index Dispersion of Thin CdS Crystals (78.20; S8.11) (b) Vol. 141, No. 2, p. K153-K156 (1987). R . I. JOSEPH a n d M . E . THOMAS
•Differential Reflection Spectroscopy: A Direct Determination of Long Wavelength Optical Mode Frequencies in Polar Crystals (78.20; S 10.1) (b) Vol. 141, No. 2, p. K163—K.166 (1987). S. N . TOUBEKTSIS, J . A . KALOMIROS, L . V . GIOBLIAKIS, K . M . PARASKEVOPOULOS, A . N . ANAGNOSTOPOULOS, a n d E . K . POLYCHKONIADIS
On the Growth and Characterization of the System TlBiSe2-TlBiTe2 (61.60; 72.80; 78.20; S8.16) (a) Vol. 101, No. 2, p. 355-360 (1987). J . BERDOWSKI
•The Influence of Isotope Effects on the Light Diffraction by Surface Acoustic Waves at Perpendicular Interaction in DADA Crystals (78.20; SI 1) (a) Vol. 102, No. 1, p. 399—409 (1987). G . JUNGK
•On the Emissivity of Composite Materials (78.20) (a) Vol. 102, No. 1, p. 411-416 (1987). P . LUKAS a n d J . KULDA
•On the Reflectivity of Deformed Absorbing Crystals (78.20) (a) Vol. 102, No. 1, p. K 5 7 - K 6 0 (1987). K.. TAKARABE, H . KAWAMURA, a n d K . WAKAMURA
•Electronic Band Structure and Optical Anisotropy in InS. I. Experimental Study (71.25 and 78.20; S8) (b) Vol. 142, No. 2, p. 605-615 (1987).
F . LUKES
•Temperature Dependence of Ellipsometric Angles of Silicon (78.20; 68.45; S5.11) (a) Vol. 102, No. 2, p. 803-814 (1987).
230
Subject Index
R . BUKOWSKI a n d Z . KLESZCZEWSKI
•Non-Stationary Stimulated Acousto-Optical Interactions in Solid Dielectrics (78.20) (b) Vol. 143, No. 1, p. 281-287 (1987).
J . E . LEWIS
•Optical Properties of the Alloy System SnTe-GeTe from Reflectance Measurements (78.20; 71.25; 78.30; S8) (b) Vol. 143, No. 1, p. 307-315 (1987).
J . M . DANCE, J . P . CHAMINADE, J . M . MOUTOU, a n d M . POUCHARD
•Spectroscopic and Magnetic Characterization of the Copper-Tungsten Oxyfluoride C u W 0 3 ^ . (75.30 and 76.30; 78.20; S9.16) (b) Vol. 143, No. 1, p. K 5 7 - K 6 1 (1987).
M . KRETZSCHMAR, F . HENNEBERGER, H . ROSSMANN, a n d I. HADDAD
•Dynartiical-Effects in Increasing Absorption Optical Bistability of Thermal Origin (78.20; S8.11) (b) Vol. 143, No. 1, p. K.71-K76 (1987).
B. ESSER a n d A . SELLONI
•Multiphonon Coupling of Optical Transitions in Disordered Systems and Inverse Participation Ratio (78.20) (b) Vol. 143, No. 1, p. K 7 7 - K 8 1 (1987).
H . ROPPISCHER, R . GOLDHAHN, J . A . BUMAI, a n d D . S . DOMANEVSKII
•Electroreflectance Depth Profiling and Hall Measurements of Thermally Converted GaAs Layers (73.60 and 78.20; S7.12) (a) Vol. 103, No. 1, p. 161-166 (1987).
P . G 6 R S K I a n d W . KUCHARCZYK
•The Quadratic Electrooptic Effect in KDP and ADP Crystals (78.20; SI 1.1) (a) Vol. 103, No. 1, p. K65—K67 (1987).
K . TAKARABE, H . KAWAMURA, a n d K.. WAKAMURA
•Electronic Band Structure and Optical Anisotropy in InS. II. Theoretical Study (71.25 and 78.20 ;S8) (b) Vol. 143, No. 2, p. 519-538 (1987). C . MEDRANO P . , P . GUNTER, a n d H . AREND
•Noncentrosymmetry Observed in CaC 4 H 4 0 6 • 4 H 2 0 Crystals by Nonlinear Optical Measurements (78.20; S12) (b) Vol. 143, No. 2, p. 749-754 (1987). H . PUFF a n d H . W . STREITWOLF
•Optical Absorption of the Soliton Lattice (78.20; 71.45; S12) (b) Vol. 143, No. 2, p. 765-775 (1987).
78.20. Optical properties and materials
231
J . L . SUBTIL, P . LAPORTE, R . RHNINGER, a n d V . SAILE
•VUV Optical Constants of Liquid and Solid Xenon at the Triple Point (78.20; 71.35; S5.2) (b) Vol. 143, No. 2, p. 783-793 (1987). H . BOUDRIOT, K . DEUS, R . GRUNDLER, H . A . SCHNEIDER, a n d T . STOCKERT
•Optical Properties of ZnSiAs2 Single Crystalline Thin Films from Electron Energy Loss Measurements (78.20 and 79.20; 71.25; S7.16) (b) Vol. 143, No. 2, p. K125—K.130 (1987)..
O . FOLTIN
•Oblique Incidence Specular Reflectivity of Isotropic Semiconductors near Three-Dimensional Critical Points (78.20; 71.20) (b) Vol. 143, No. 2, p. K151-K154 (1987).
F . Y . M . AL-EITHAN, M . C . AL-EDANI, a n d A . K . ABASS
•Optical Band Gap of Triglycine Selenate (TGSe) Single Crystals (78.20; S12) (a) Vol. 103, No. 2, p. 571-574 (1987). T . WILSON a n d P . D . PESTER
•Information Depth in Optical Beam Induced Examination of Semiconductor Materials and Devices (78.20; 78.55) (a) Vol. 103, No. 2, p. 631-636 (1987). G . A . MEDVEDKIN, Y U . V . R U D , a n d M . A . TAIROV
•Optical Band Edge Absorption in CuInSe 2 (78.20 ;S8.16) (b) Vol. 144, No. 2, p. 809-816 (1987). M . JOUANNE, C . JULIEN, a n d M . BALKANSKI
•Polarization Studies of Polar Phonons of InSe (63.20 and 78.20; S8) (b) Vol. 144, No. 2, p. K147-K150 (1987).
S. A . STEPANOV, I. S. EDELMAN, T . A . KIM, G . T . PETROVSKII, a n d G . V . POPOV
•Properties of Magnetically Ordered Microparticles in Borate Glasses (75.50 a n d 78.20; 61.40; S10.15) ( a ) V o l . 1 0 4 , N o . 2, p . 8 0 5 - 8 1 4 ( 1 9 8 7 ) .
P . HERTEL, K . H . RINGHOFER, a n d R . SOMMERFELDT
•Theory of Thermal Hologram Fixing and Application to LiNb0 3 : Cu (72.40 and 78.20; SI 1.1) (a} Vol. 104, No. 2, p. 855-862 (1987).
F . KOCH a n d O . OELGART
Reabsorbed Recombination Radiation and Electron Beam Induced Barrier Current in n-Type GaAs (73.40; 78.20; 78.55; S7.12) (a) Vol. 104, No. 2, p. 931-939 (1987).
Subject Index
232
78.30. Infrared and Raman spectra and scattering H . RÛBEL, B. SCHRODER, W . FUHS, J . KRAUSKOPF, T . R U P P , a n d K . BETHGE
IR Spectroscopy and Structure of R F Magnetron Sputtered a-SiC:H Films (68.55 and 73.60; 78.30; S6) (b) Vol. 139, No. 1, p. 131-143 (1987). A . K . PRADHAN, R . N . P . CHOUDHARY, a n d B. M . WANKLYN
•Raman and Infrared Spectra of YAs0 4 (78.30; S l l . l ) (b) Vol. 139, No. 1, p. 337-345 (1987). M . KLANJSEK GUNDE, B. OREL, a n d V . MOISEENKO
Vibrational Studies of and Impurity Mode Behaviour in Mixed Pb 5 (Ge0 4 ) 1 _,(Si0 4 ) J( (V0 4 ) 2 Monocrystals (63.20; 78.30; S10.15) (b) Vol. 139, No. 1, p. K 7 5 - K 8 0 (1987). A . MEMON a n d D . B . TANNER
•Phonon Combination Bands in the Far-Infrared Spectrum of Ko s Rbo ,1 Mixed Crystals (63.20 and 78.30; S9.15) (b) Vol. 139, No. 1, p. K 8 1 - K 8 5 (1987). W . KACZMAREK a n d F . GERVAIS
•Infrared Dispersion of P-Gadolinium Molybdate at Room Temperature (78.30; S l l . l ) (a) Vol. 99, No. 1, p. 279-287 (1987). J . TATARKIEWICZ a n d K . WINER
Vibrational Properties of Hydrogen in Proton-Implanted Silicon (61.70 and 63.20; 78.30; S5.11) (b) Vol. 139, No. 2, p. 409-415 (1987). K . M . REDDY, A . S . JACOB, B. J . REDDY, a n d Y . P . REDDY
•Optical Absorption Spectra of Cu 2 + in Brochantite (78.30 and 78.40; SI 1.2) (b) Vol. 139, No. 2, p. K145-K150 (1987). M . KLANJSEK G U N D E , B . OREL, a n d V . MOISEENKO
•Infrared Reflection Spectra of and Polariton Dispersion in Ferroelectric Pb 5 Ge 3 O u (63.20 and 78.30; S10) (b) Vol. 139, No. 2, p. K151-K155 (1987). G . IRMER, J . MONECKE, B. H . BAIRAMOV, a n d V . V . TOPOROV
•On the Electronic Raman Scattering at Minority Impurities in GaP (71.55 and 78.30; S7.ll) (b) Vol. 139, No. 2, p. K157-K160 (1987). J . L . LINDSTROM, H . WEMAN, a n d G . S. OEHRLEIN
Thermal Donors and Carbon-Oxygen Defects in Silicon (61.70 and 71.55; 72.80; 78.30; S5.U) (a) Vol. 99, No. 2, p. 581-591 (1987).
78.30. Infrared and Raman spectra and scattering
233
M . I. ALIEV, K H . A . K H A U L O V , a n d G . B. IBRAGIMOV
*Free Carrier Absorption in In, ^Ga^As (78.30; S7.12; S7.15) (b) Vol. 140, No. 1, p. K 8 3 - K 8 6 (1987). S. NESPCREK, I. KOROPECKI, M . SORM, A . GRAJA, a n d E . SOPA
•Physical Properties of the TCNQ Salts with l-Methyl-3-Alkylimidazolium Derivatives (72.20 and 78.30; S12) (b) Vol. 140, No. 2, p. 545-558 (1987). V . ¿ELEZNY, J . PETZELT, a n d R . SWIETLIK
•Infrared Properties of TeAE(TCNQ) 2 (78.30; 63.20; 71.38; S12.1) ( b ) V o l . 140, N o . 2, p. 5 9 5 - 6 0 4 (1987).
E . CAZZANELLI, A . FONTANA, F . ROCCA, a n d R . FRECH
•Low Temperature Behaviour of the Lithium Modes in Monoclinic Li 2 S0 4 (78.30; 63.20; SI 1.1) (b) Vol. 140, No. 2, p. 621-630 (1987). P . V . REDDY a n d M . SALAGRAM
•The Far-Infrared Spectra of Mixed Manganese-Magnesium Ferrites (78.30 ;S11.2) (a) Vol. 100, No. 2, p. 639-643 (1987).
I . BRATU, P . OANÄ, a n d M . CULEA
•An Infrared Study of x% BaO • 6 Fe 2 0 3 • (100 — x)% 3 B 2 0 3 • 2 BaO Glasses (78.30; 63.50; S10.15) (a) Vol. 100, No. 2, p. K195-K198 (1987).
A . LEHMEYER a n d L . MERTEN
Shape of Magnetic Reststrahlen-Bands Caused by Magnon-Polaritons in Uniaxial Ferrites (71.36 and 75.50; 78.30) (b) Vol. 141, No. 1, p. 269-286 (1987).
M . V . SIMONYAN, E . A . KAFADARYAN, M . C H . NURUANYAN, A . K . PETROSYAN, a n d E . G . SHAROYAN
ESR, Optical Absorption and Reflection Spectra of Monoclinic and Triclinic Modifications of Lead Phthalocyanine (76.30 and 78.20; 78.30; S12.1) (a) Vol. 101, No. 1, p. 143-149 (1987).
E . Z . KATSNELSON, A . G . KAROZA, L . A . MELESHCHENKO, V . V . PANKOV, a n d B. G . KHAVKIN
•Detailed Study of IR Absorption Spectra of Manganese-Zinc Ferrites (78.30; SI 1.2) (b) Vol. 141, No. 2, p. 599-609 (1987).
M . H . KUOK
•Raman Spectra of Cesium Trichlorostannate(II) (78.30; 63.20; S9) (b) Vol. 141, No. 2, p. K167-K171 (1987).
234
Subject Index
A . CANTARERO, J . P . MARTÍNEZ, A . SEGURA, a n d A . CHEVY
* Refractive Index of Bismuth Sulfide in the Infrared Region (78.30 ;S8) (a) Vol. 101, No. 2, p. 6 0 3 - 6 0 9 (1987). M E N G XIANG-TI, D U YONG-CHANG, a n d FAN YU-DIAN
•New Si-H IR Bands in Neutron-Irradiated Silicon Grown in Hydrogen Atmosphere (78.30; 61.80; S 5 . l l ) ( a ) Vol. 101, N o . 2, p . 6 1 9 - 6 2 8 (1987).
J . OTTO
•Investigation of the Phonon Sidebands of S H " and SeH" Centres in Cesium Halides and Potassium Bromide (63.20 and 78.30; S 9 . l l ) (b) Vol. 142, No. 1, p. 1 0 5 - 1 1 5 (1987).
XICHEN YANG, GUOXIANG LAN, BING L I , a n d HUAFU W A N G
• R a m a n Spectra and Directional Dispersion in L i N b 0 3 and L i T a 0 3 ( 7 8 . 3 0 ; 6 3 . 2 0 ; S I 1.1) ( b ) V o l . 142, N o . 1, p . 2 8 7 - 3 0 0 ( 1 9 8 7 ) .
A.
VON CZARNOWSKI a n d K . HUBNER
• R a m a n and Infrared Investigations of Stishovite and Their Interpretation (78.30; S10.1) (b) Vol. 142, No. 1, p. K 9 1 - K 9 6 (1987).
J . TATARKŒWICZ, A . M . WITOWSKI, a n d E . JAHNE
Hydrogen Vibrations in CdTe (61.70 and 63.20 ; 78.30 ; S8.13) (b) Vol. 142, No. 2, p. K 1 0 1 - K 1 0 4 (1987). A . I. LUKOMSKII, V. B . SHIPILO, E . M . SHISHONOK, a n d N . G . ANICHENKO
• R a m a n Scattering of Cubic Boron Nitride (78.30; S7.1) ( a ) V o l . 102, N o . 2 , p . K 1 3 7 - K 1 3 9 ( 1 9 8 7 ) .
H O N G SUN a n d JUNXIN F A N G
•Polariton Theory of Infrared Absorption Edges in Si0 2 , G e 0 2 , and G e 0 2 - Doped S i 0 2 Glasses (78.30; 71.36; S10) (b) Vol. 143, No. 1, p. 2 8 9 - 2 9 7 (1987).
J . E . LEWIS
Optical Properties of the Alloy System SnTe-GeTe from Reflectance Measurements (78.20; 71.25; 78.30; S8) (b) Vol. 143, No. 1, p. 3 0 7 - 3 1 5 (1987).
K . TAKARABE
• R a m a n Scattering Spectra of InS under Pressure (78.30; S8) (b) Vol. 143, No. 1, p. K 6 7 - K 7 0 (1987).
78.30. Infrared and Raman spectra and scattering
235
O . A . GOLIKOVA a n d M . M . KAZANIN
•Modified Aluminium Dodecaboride (72.80 and 78.30; SII) (a) Vol. 103, No. 1, p. K 4 1 - K 4 3 (1987).
A . FORSTER, S. KAPPHAN, a n d M . WOHLECKE
•Overtone Spectroscopy of the OH and OD Stretch Modes in LiNb0 3 (78.30 and 78.50; SI 1.1) (b) Vol. 143, No. 2, p. 755-764 (1987).
B . ULRICI, R . STEDMAN, a n d W . ULRICI
•Local Vibrational Mode Absorption of Hydrogen and Oxygen Centres in LEC-Grown GaP and GaAs (63.20 a n d 78.30; 61.70; S7.11; S7.12) (b) Vol. 143, N o . 2, p. K 1 3 5 - K 1 3 9 (1987).
D . A . JISHIASHVILI a n d E . R . KUTELIA
•Infrared Spectroscopic Study of GeO, Films (78.30; S10.1) (b) Vol. 143, No. 2, p. K147-K150 (1987).
A . K . PRADHAN a n d R . N . P . CHOUDHARY
•Vibrational Spectra of Rare Earth Orthoniobates (63.20 and 78.30; S10) (b) Vol. 143, No. 2, p. K161-K166 (1987). A . A . KAMINSKII, B . V . M I L L , A . V . BUTASHIN, E . L . BELOKONEVA, a n d K . KURBANOV
•Germanates with NdAlGe 2 0 7 -Type Structure. Synthesis, Crystal Structure, Absorption-Luminescence Properties, and Stimulated Emission of Their Acivator, Nd 3 + Ions (78.30 and 78.55; 61.60; 78.45; S10) (a) Vol. 103, No. 2, p. 575-592 (1987). P . E . SIMMONDS a n d A . D . MARTIN
•Temperature Dependence of Raman Scattering by Optical Phonons in ZnTe (78.30; S8.13) (b) Vol. 144, No. 1, p. K 6 3 - K 6 7 (1987).
H . L . PARK a n d W . B . WHITE
•Raman Spectra of FeS and P-CoS (78.30; SI.63) (b) Vol. 144, No. 1, p. K 6 9 - K 7 1 (1987). E . A . VINOGRADOV, N . M . GASANLY, L . G . GASANOVA, A . Z . MAGOMEDOV, a n d V . I. TAGIROV
•Infrared Reflectivity Spectra of Cu 3 In 5 S 9 Layer Single Crystals (78.30; 63.20; S8.16) (b) Vol. 144, No. 1, p. K 7 3 - K 7 6 (1987). J . MISIEWICZ a n d Z . GUMIENNY
Impurity Transitions in Zn 3 P 2 Observed Using the Wavelength Modulation Technique (71.55; 78.30; S7) (a) Vol. 104, No. 1, p. K 3 7 - K 4 0 (1987).
Subject Index
236 O . PILLA, E . CAZZANELLI, B. BLANZAT, a n d C . ANDRAUD
•Comparative Raman Study of Phonon Linewidths in Pure and Lead-Doped CsCdBr 3 (78.30; 61.70; S9.16) (b) Vol. 144, No. 2, p. 845-851 (1987). U . DÖBLER a n d H . H A P P
•Infrared Investigation of Phase Transitions in CsHS0 4 (78.30; 63.20; 77.80; SI 1.1) (b) Vol. 144, No. 2, p. 8 5 3 - 8 6 2 (1987). H . - B . ABEL a n d F . FISCHER
•Additional Results on SERS from Ag Colloids in Alkali Halide Crystals (78.30; 61.70; S9.ll) (b) Vol. 144, No. 2, p. 8 7 5 - 8 8 4 (1987). P . G A R D , C . SOURISSEAU, a n d O . GOROCHOV
•Effect of Metal Substitution in ZrS 3 in TiS3 Compounds. Electronic, Raman, and Resonance Raman Study of Z r ^ T i ^ S j Ternary Phases, 0 < x < 1 (78.30; 63.20; S8.16) (b) Vol. 144, No. 2, p. 8 8 5 - 9 0 1 (1987). M . G . KAPLUNOV, R . N . LYUBOVSKAYA, M . Z . ALDOSHINA, a n d Y u . G . BORODKO
•The Reflection Spectra of the New Organic Conductor (BEDT-TFF) 4 Hg 3 Cl 8 (78.30; 71.38; S12) (a) Vol. 104, No. 2, p. 833-839 (1987). P.
LoSfAK, R . NOVOTNV, J . KROUTIL, and Z . STARV •Optical Properties of S b j ^ I n ^ T e , Single Crystals (78.30; S8) (a) Vol 104, No. 2, p. 841-848 (1987).
J . WIEHL a n d S. KEMMLER-SACK
Cathodo- and Photoluminescence in the Eu 3 + Activated Garnets of Type Y j ^ L n ^ T e j L i j O ^ (Ln = Lu, La) and Gd 3 _ x La. c Te 2 Li 3 O l 2 (78.55 and 78.60; 78.30; SI 1.2) (a) Vol. 104, No. 2, p. 8 6 3 - 8 7 2 (1987).
78.35. Brillouin and Rayleigh scattering K.. P . MAHESHWARI a n d G . TAREY
•Stimulated Brillouin Scattering of EM Wave Propagating Obliquely in a Magnetoactive Solid State Plasma (78.35 and 78.45; S7.1'3) (b) Vol. 141, No. 1, p. 333-341 (1987).
H . JEX a n d U . MCLLER
•X-Ray Brillouin Scattering of Mòssbauer Radiation by an Oscillating Quartz Crystal (63.20 and 78.35; 76.80; S10.1) (b) Vol. 143, No. 1, p. 3 1 7 - 3 2 4 (1987).
78.40. Visible and ultraviolet spectra
237
78.40. Visible and ultraviolet spectra D U M A O - L U a n d ZHAO M I N - G U A N G
*A Theoretical Explanation for Pressure Shift of Optical Spectra in Chromium Potassium Alum (71.70 and 78.40; SII) (b) Vol. 139, No. 1, p. K 8 7 - K 9 1 (1987).
V . I. GAVRILENKO
Electronic Structure and Optical Properties of Polycrystaalline Cubic Semiconductors (71.25; 78.40; S5.11) (b) Vol. 139, No. 2, p. 457-466 (1987).
K . M . REDDY, A . S . JACOB, B . J . REDDY, a n d Y . P . REDDY
•Optical Absorption Spectra of Cu 2 + in Brochantite (78.30 and 78.40; SI 1.2) (b) Vol. 139, No. 2, p. K145-K150 (1987).
E . SCHULTHEISS, A . SCHARMANN, a n d ' D . SCHWABE
•Energy Levels of Triply Ionized Praseodymium in BiLiF4 Crystals (71.70 and 78.40; 63.20; S9.16) (b) Vol. 140, No. 1, p. 173-189 (1987).
J . MÂLEK a n d M . VANÉÔEK
•The Absorption Edge in the n-Type Ge 20 Bi 15 S 65 Glass (78.40; S41) (a) Vol. 100, No. 1, p. K99-K.102 (1987).
A . V . SHERMAN
•Energy and Absorption Spectra of One-Dimensional Exciton-Phonon System (71.35 and¿78.40; S12.1) (b) Vol. 141, No. 1, p. 151-161 (1987).
J . C . PARLEBAS, K . CHETOUANE, a n d J . HUGEL
•4 f Optical Absorption Model in Rare-Earth Semiconducting Compounds (71.50 and 78.40; SI.63) (b) Vol. 142, No. 1, p. 311-316(1987).
V. A . ALIEV, E . F . BAGIRZADE, N . Z . GASANOV, a n d G . D . GUSEINOV
•Behaviour of the Urbach Edge at Phase Transitions in TlGaSe 2 Single Crystals (78.40; 64.70; 71.35; S8.16) (b) Vol. 143, No. 2, p. K155-K.160 (1987).
Subject Index
238 78.45. Stimulated emission K . P . MAHESHWARI a n d G . TAREY
•Stimulated Brillouin Scattering of EM Wave Propagating Obliquely in a Magnetoactive Solid State Plasma (78.35 and 78.45; S7.13) (b) Vol. 141, No. 1, p. 333-341 (1987).
A . A . KAMINSKII
*On the Laws of Crystal-Field Disorder of Ln 3 + -Ions in Insulating Crystals (78.45; 71.70; 78.55; Sll) (a) Vol. 102, No. 1, p. 389-397 (1987).
A . A . KAMINSKII, B. V . MILL, A . V . BUTASHIN, E . L . BELOKONEVA, a n d K . KURBANOV
Germanates with NdAlGe 2 0 7 -Type Structure. Synthesis, Crystal Structure, Absorption-Luminescence Properties, and Stimulated Emission of Their Activator, Nd 3 + Ions (78.30 and 78.55; 61.60; 78.45; S10) (a) Vol. 103, No. 2, p. 575-592 (1987).
78.50. Impurity and defect absorption in solids J . LAKSHMANA RAO
Optical Absorption Spectrum of Cr 3 + Ions Doped in NH 4 C1 Single Crystals (71.55; 78.50; S9) (b) Vol. 139, No. 1, p. 241-244 (1987).
H J . BERNHARDT, T H . DIMMIG, a n d A . DIMMIG
The Investigation of Point Defects in Lead Molybdate Crystals Which Lead to the Change of Absorption and Fluorescence Properties (61.70; 78.50; 78.55; SI 1.1) (a) Vol. 99, No. 2, p. 399—404 (1987).
J . C . KRUPA, C . K H A N MALEK, P . DELAMOYE, B. MOINE, a n d C . PEDRINI
•Observation of an Incommensurate Structure by Optical Spectroscopy with a 5f Ion as an Internal Probe. U 4 + -ThCl 4 System (78.50 and 78.55; 71.70; S9) (b) Vol. 140, No. 1, p. 289-300 (1987).
K . MATSUURA, S. KISHIDA, a n d I . TSURUMI
Annealing of the F + EPR Centers and the 2.3 and 2.9 eV Optical Absorption Bands in Zinc Sulfide Crystals (61.70; 76.30; 78.50; S8.U) (b) Vol. 140, No. 2, p. 347-354 (1987).
78.50. Impurity and defect absorption in solids L.
239
Bosi and M . NIMIS Lifetime Studies on Excited (F2+)* and M Centers in NaF Doped with Magnesium (61.70; 78.50; S9.ll) (b) Vol. 140, No. 2, p. 355-360 (1987).
J . TATARKIEWICZ, A . KRÖL, A . BREITSCHWERDT, a n d M . CARDONA
Localized Vibrations of Hydrogen and Deuterium in GaAs. A Comparison with Ge and Si (63.20; 61.70; 78.50; S7.12) (b) Vol. 140, No. 2, p. 369-375 (1987).
W . ULRICI, L . EAVES, K . KRIEDLAND, a n d D . P . HALLIDAY
Optical Studies of Vanadium in Gallium Phosphide (71.55; 72.80; 78.50; 78.55; S7.ll) (b) Vol. 141, No. 1, p. 191-202 (1987).
S . V . GORBUNOV, A . V . KRUZHALOV, a n d M . J . SPRINGIS
•Optical Properties of the F-Centre in Beryllium Oxide (78.50 a n d 78.55; 61.70; 71.55; S10.1) ( b ) V o l . 1 4 1 , N o . 1, p . 2 9 3 - 3 0 1 ( 1 9 8 7 ) .
A . B . GERASIMOV, Z . G . GOGUA, a n d V . N . SVANIDZE
•Studies of the Optical Impurity-Band Transition Using a Single Potential of an Impurity Centre (78.50) (b) Vol. 141, No. 1, p. K 8 3 - K 8 7 (1987).
A . HAMAIDIA a n d J . MARGERIE
Measurement of Oscillator Strengths of "F 2 A " Centres in MeF 2 : A + (Me = Ca, Sr; A + = Li + , N a + , K+) (61.70; 76.30; 78.50; S9.12) (b) Vol. 141, No. 2, p. 391-398 (1987). M . HERGET, A . HOFSTAETTER, T . NICKEL, a n d A . SCHARMANN
Reorientation of Hole Centers in CaW0 4 Monitored by EPR and Optical Absorption (71.38 and 71.70; 76.30; 78.50; SI 1.1) (b) Vol. 141, No. 2, p. 523-528 (1987). S . I. GAIDAI, K . P . MELETOV, a n d M . F . SHCHANOV
Quasi-Resonance in Hydrostatically Compressed Isotopic Mixed Crystals of Deuteronaphthalene (71.35 and 71.55; 78.50; 78.55; S12) (b) Vol. 142, No. 1, p. 211-220 (1987). K . MATSUURA. S . KISHIDA, I. TSURUMI, a n d M . KITAGAWA
•Electron-Irradiation Effect on the F + Bands and the Near-Infrared Emissions in ZnS Crystals (78.50 and 78.55; 61.70; S8.ll) (b) Vol. 142, No. I, p. K 7 9 - K 8 3 (1987).
B . SUJAK-CYRUL, A . BARTCZAK, a n d j . MISIEWICZ
•The Influence of Heat Treatment on the Infrared Absorption Spectra of Zn 3 P 2 (78.50; S7) (a) Vol. 102, No. 1, p. 425-432 (1987).
Subject Index
240 M . L . MUKHERJEE a n d R . CAPELLETTI
X-Ray Induced Relaxation Band Due to Higher Aggregates in KCl:Pb (61.70; 77.30; 78.50; S9.11) (b) Vol. 142, No. 2, p. 361-366 (1987). G . ELBERS, S . REM ME, a n d G . LEHMANN
EPR and Optical Absorption of Cr 3 + in CsCl and CsBr (61.70; 76.30; 78.50; S9.ll) (b) Vol. 142, No. 2, p. 367-377 (1987).
N . VEERAIAH
•On Some Optical Properties of NaF Single Crystals X-Ray Irradiated under DC Fields (78.50 and 78.60; S9.11) (b) Vol. 142, No. 2, p. 5 8 7 - 5 9 3 (1987).
K . MATSUURA, S . KJSHDA, K . YOSHIDA, a n d I. TSURUMI
•Optical Bleaching of the F + Optical Absorption Bands in ZnS Crystals (61.70 and 78.50; S8.11) (b) Vol. 142, No. 2, p. 617-627 (1987). W . ULRICI, J . KREISSL, A . VASSON, A . M . VASSON, a n d M . EN-NAQADI
Photoinduced Recharging Phenomena and Vanadium-Related Centres in GaAs:V (71.55; 76.30; 78.50; S7.12) (b) Vol. 143, No. 1, p. 195-206 (1987). WEN-CHEN ZHENG
Theoretical Calculations of EPR Parameters and Absorption Spectra in Chromium-Doped a-LiI0 3 Crystals and Determination of Local Compressibilities (71.70; 62.20; 76.30; 78.50; SI 1.1) (b) Vol. 143, No. 1, p. 2 1 7 - 2 2 3 (1987). K . MATSUURA, S. KISHIDA, Y . FUKATA, a n d I. TSURUMI
•Correlation between the 1.1 and 1.45 eV Emission Bands and the F + Optical Absorption Bands in ZnS Crystals (78.50 and78.55; 61.70; S8.ll) (b) Vol. 143, No. 1, p. 2 7 5 - 2 8 0 (1987). B . SUJAK-CYRUL a n d J . MISIEWICZ
•Changes of Acceptor Absorption Spectra in Zn 3 P 2 Due to the Heat Treatments (78.50; S7) (a) Vol. 103, No. 1, p. K 5 7 - K 6 0 (1987). A . FÖRSTER, S . KAPPHAN, a n d M . WÖHLECKE
•Overtone Spectroscopy of the OH and OD Stretch Modes in LiNbOj (78.30 and 78.50; SI 1.1) (b) Vol. 143, No. 2, p. 7 5 5 - 7 6 4 (1987). J . L . RAO, R . M . KRISHNA, a n d S . V . J . LAKSHMAN
Nearest-Neighbour Point Ion Approximation Calculations of Energy Levels for Mn 2 + Ions Doped in MgF 2 Single Crystals (71.55; 78.50; S9.12) (b) Vol. 143, No. 2, p. K 9 9 - K 1 0 1 (1987).
78.50. Impurity and defect absorption in solids
241
S. KISHIDA, K.. MATSUURA, H . NAGASE, a n d I. TSURUMI
•Annealing Characteristics and Temperature Dependence of the Photosensitive 1.9 e.V Absorption Band in Zn-Treated ZnSe Crystals (78.50; 61.70; S8.12) (a) Vol. 103, No. 2, p. 613-618 (1987). L. Bosi and M. NIMIS Effect of Thermal Expansion on Absorption Band Shift of the F-Center in Alkali Halides (61.70; 78.50; S9.U) (b) Vol. 144, No. 2, p. 501-505 (1987).
T . S. N . MURTHY a n d M . SALAGRAM
Electronic Spectra of Radiation-Induced CiO^" in 3 CdS0 4 • 8 H 2 0 Crystals (61.80 and 71.70; 78.50; S i l ) (b) Vol. 144, No. 2, p. 519-527 (1987).
T . F . VEREMEICHIK
•The Regularities in Ground- and Excited-State Absorption Spectra of Impurity Ions of the Iron Group in Crystals (71.70 and 78.50) (b) Vol. 144, No. 2, p. 709-717 (1987).
Y u . E . PERLIN, V . M . POLYANOVSKII, a n d O . V . ALIFANOV
•Optical Transitions of Jahn-Teller Local Centres (71.55 and 78.50) (b) Vol. 144, No. 2, p. 817-824 (1987).
M . OKADA, T . KAWAKUBO, T . SEIYAMA, a n d M . NAKAGAWA
•Enhancement of 3d-Electron Transitions in Neutron-Irradiated MgO: Mn 2 + Crystals (78.50; 71.70; S10.1) (b) Vol. 144, No. 2, p. 903-909 (1987).
E . RADZHABOV
•Vacuum Ultraviolet Absorption and Dissociation of H ~ and OH " Centers in NaF (78.50; 61.70; 71.55; S9.ll) (b) Vol. 144, No. 2, p. K.151—K.155 (1987).
16
physica, Reg.-Bd. 20
242
Subject Index
78.55. Photoluminescence J . BULLOT a n d M . P . SCHMIDT
Physics of Amorphous Silicon-Carbon Alloys (Review Article) (61.40; 71.20; 71.55; 72.40; 73.60; 78.20; 78.55; 78.60; S6) (b) Vol. 143, No. 2, p. 345-418 (1987). J . PASTRNAK, F . KAREL, J . OSWALD, W . ULRICI, a n d N . M . KOLCHANOVA
The Study of Impurity Levels in LEC Semi-Insulating GaAs:Cr Samples by Two Source Photoconductivity Measurements (71.55; 72.40; 78.55; S7.12) (a) Vol. 99, No. 1, p. 225—235 (1987).
R . STEGMANN, W . N . RASBEGAEV, a n d A . N . PIKHTIN
•Radiative Recombination in Zn-N-Doped G a A s ^ ^ P . i N Mixed Crystals (78.55 and 78.60; 71.55; S7.15) (a) Vol. 99, No. 1, p. 289-294 (1987). D . CASSI, R . FAVA, M . MANFREDI, H . OPYRCHAL, a n d M . SUSZYÜSKA
Fractal and Percolative Features of Aggregation Processes in NaCl:Eu 2 + System Detected by Time Resolved Spectroscopy (71.55; 78.55; S9.11) (b) Vol. 139, No. 2, p. 527-531 (1987). H . ZIMMERMANN a n d R . BOYN
Donor-Type Tm Centres in ZnS Crystals (71.55; 78.55; S8.ll) (b) Vol. 139, No. 2, p. 533-545 (1987). T . KESSLER, R . MARKUS, H . NÄHME, a n d N . SCHWENTNER
Nonlinear Excitation of Pure and Doped Rare Gas Crystals (78.20; 71.35; 78.55; S5.2) (b) Vol. 139, No. 2, p. 619—625 (1987). H J . BERNHARDT, T H . DIMMIG, a n d A.-DIMMIG
The Investigation of Point Defects in Lead Molybdate Crystals Which Lead to the Change of Absorption and Fluorescence Properties (61.70; 78.50; 78.55; SI 1.1) (a) Vol. 99, No. 2, p. 399-404 (1987).
H . HAEFNER, M . HEIDER, F . K O C H , R . MITDANK, G . OELGART, W . THIELEMANN, B . RHEINLÄNDER, a n d B . JACOBS
Properties of Red Light-Emitting (AlGa)As Single-Heterostructure Diodes. I. Structure Characterization (73.40 and 85; 78.55; 78.60; S7.15) (a) Vol. 99, No. 2, p. 657—667 (1987).
R . BOYN a n d H . ZIMMERMANN
•"Dissolution" of 4f-4f Transitions in Phonon Sidebands (ZnS:Tm 3 + ) (71.55 and 78.55; 71.38; S8.ll) (b) Vol. 140, No. 1, p. 163-172 (1987).
78.55. Photoluminescence
243
J . C . K R U P A , C . K H A N MALEK, P . DELAMOYE, B . MOINE, a n d C . PEDRINI
•Observation of an Incommensurate Structure by Optical Spectroscopy with a.5f Ion as an Internal Probe. U 4 + -ThCl 4 System (78.50 and 78.55; 71.70; S9) (b) Vol. 140, No. 1, p. 289-300 (1987). W . SIEBERT, R . CARIUS, W . FUHS, a n d K . JAHN
*Photoluminescence in a-Si, _ ^C,,: H Films (78.55; 78.65; S6) (b) Vol. 140, No. 1, p. 311-321 (1987). K . LOBE a n d R . BOYN
•Dye-Laser Selective 4f-4f Excitation of Electroluminescent Sm 3 + Centers in ZnS Films and Crystals (78.55 and 78.60; S8.ll) (b) Vol. 140, No. 1, p. K 9 1 - K 9 5 (1987). B. RAY, P . A . MONSEF MIRZAI, a n d J . W . BRIGHTWELL
Fluorescence and ESR in GaS : Mn 2 + (71.55; 76.30; 78.55; S8) (a) Vol. 100, No. 1, p. 233-237 (1987). H . HESS
•The Fatiguing of the Photoluminescence in Zinc Silicate Doped with Mn and Ga (78.55; 72.40; SI 1.1) (a) Vol. 100, No. 1, p. 343—354 (1987). B . RHEINLÄNDER, W . THIELEMANN, G . OELGART, H . HAEFNER, R . MITDANK, M . HEIDER, F . KOCH,
and
B.JACOBS
Properties of Red Light-Emitting (Al, Ga)As Single Heterostructurff Diodes. II. Luminescence, Injection, and Photoeffect Efficiencies (73.40 and 85; 78.55; 78.60; S7.15) (a) Vol. 100, No. 1, p. 369-377 (1987). F . LISSE, J . KÖHLER, H . ' P U F A H L , a n d D . SCHMID
•Sensitized Luminescence of Pure and Doped N a N 0 2 Single Crystals. I. Stationary Spectra (78.55; 71.35; 71.55; Sil.1) (b) Vol. 140, No. 2, p. 605-619 (1987). W . ULRICI, L . EAVES, K . FRIEDLAND, a n d D . P . HALLIDAY
Optical Studies of Vanadium in Gallium Phosphide (71.55; 72.80; 78.50; 78.55; S7.11) (b) Vol. 141, No. 1, p. 191-202 (1987). S. V . GORBUNOV, A . V . KRUZHALOV, a n d M . J . SPRINGIS
Optical Properties of the F-Centre in Beryllium Oxide (78.50; 78.55; 61.70; 71.55; S10.1) (b) Vol. 141, No. 1, p. 293-301 (1987). H . PUFAHL, J . KÖHLER, T H . SCHMIDT, D . SCHMID, a n d V . M . KENKRE
•Sensitized Luminescence of Pure and Doped N a N 0 2 Single Crystals. II. Time-Resolved Experiments and Preliminary Analysis (78.55; 71.35; 71.55; Sil.1) (b) Vol. 141, No. 1, p. 303-315 (1987). 16*
244
Subject Index
P . ENDERS
•Photon Recycling in Double Heterostructures. III. Variational Calculations (78.55; 72.90, 73.40) (b) Vol. 141, No. 1, p. 317-323 (1987). A . J . PAL, G . B. TALAPATRA, a n d T . N . MISRA
•Concentration Effect on Delayed Emissions: 1,4 Dibromonapthalene Host-Pyrene Guest Mixed Crystal System (78.55; 71.35; S12) (b) Vol. 141, No. 1, p. 351-360 (1987). F . J . LOHMEIER
Photostimulated Reorientations of PO ~ Centers in Alkali Halides (71.55; 78.55; S9.ll) (b) Vol. 141, No. 2, p. 517-521 (1987). H . PRADELLA a n d U . W . POHL
•Luminescence of the Cr + Centre in ZnSe (78.55; S8.12) (b) Vol. 141, No. 2, p. K143-K146 (1987).
XINGREN L i u , XIAOJUN W A N G , a n d W U F U SHUN
•Luminescence Properties of the Ce 3+ Ion in Yttrium Gallium Garnet (78.55; 78.60; SI 1.2) (a) Vol. 101, No. 2, p. K161-K165 (1987).
A . REM6N, J . A . G A R c f A , M . A . OCHANDO, J . LLOPIS, a n d J . PIQUERAS
•Photoluminescence from Heat-Treated MgO: Ni Crystals (78.55; S10.1) (a) Vol. 101, No.'2, p. K.167—K.171 (1987).
M . GARRIGUES a n d S. K . KRAWCZYK
•Erratum to: Characterization of the InP Surface by Photoluminescence Imaging (78.55; S7.ll) (a) Vol. 101, No. 2, p. K181 (1987). S . I. GAIDAI, K . P . MELETOV, a n d M . F . SHCHANOV
Quasi-Resonance in Hydrostatically Compressed Isotopic Mixed Crystals of Deuteronaphthalene (71.35 and 71.55; 78.50; 78.55; SI2) (b) Vol. 142, No. 1, p. 211-220(1987).
C . BENECKE, W . BUSSE, H . - E . GUMLICH, a n d H . - J . MOROS
•Time-Resolved Spectroscopy of the Low-Energy Emission Bands of Highly Doped Zn, _ x Mn x S (78.55; S8.15) (b) Vol. 142, No. 1, p. 301-309 (1987).
K . MATSUURA, K . KISHIDA, I. TSURUMI, a n d M . KITAGAWA
•Electron-Irradiation Effects on the F + Bands and the Near-Infrared Emissions in ZnS Crystals (78.50 and 78.55; 61.70; S8.11) (b) Vol. 142, No. 1, p. K 7 9 - K 8 3 (1987).
78.55. Photoluminescence
245
A . A . KAMINSKII
On the Laws of Crystal-Field Disorder of Ln 3+ -Ions in Insulating Crystals (78.45; 71.70; 78.55; SU) (a) Vol. 102, No. 1, p. 389-397 (1987).
A . V . VAKULENKO, R . A . VARDANYAN, a n d L . B. HOVAKIMYAN
*On the Luminescence at the Surface and in the Surface Space Charge Region (73.20 and 78.55) (b) Vol. 142, No. 2, p. 417-422 (1987). S. N . KONYAEV, A . I. SHUSHIN, L . I. KOLESNIKOVA, M . M . TRIBEL, a n d E . L . FRANKEVICH
Fluorescence-Detected Low Field Resonances in T-T Annihilation in the A-TCNB Single Crystal. Lineshape and Dynamic Parameters (71.35; 76.90; 78.55; S12) (b) Vol. 142, No. 2, p. 461-471 (1987). Y u . P . GNATENKO a n d Y U . I. ZHIRKO
•Exciton Absorption and Luminescence of Indium Selenide Crystals (71.35 and 78.55 ;S8) (b) Vol. 142, No. 2, p. 595-604 (1987). I. RUCKMANN, M . PETRAUSKAS, V . NETIKSIS, G . TAMULAITIS, a n d J . HALFPAP
•Investigation of p-CdTe and p-Zn^Cdj _ xTe Single Crystals by ps-Laser-Induced Gratings and by Photoluminescence (78.55; S8.13; S8.15) (b) Vol. 142, No. 2, p. 629-640 (1987). P . E . SIMMONDS a n d R . SOORYAKUMAR
Stress Effects on Acceptor Bound Excitons in GaAs (71.35 and 71.55; 78.55; S7.12) (b) Vol. 142, No. 2, p. K137-K141 (1987). W . HERGERT, S. HILDEBRANDT, a n d L . PASEMANN
•Theoretical Investigations of Combined EBIC, LBIC, CL, and PL Experiments. The Information Depth of the PL Signal (78.55 and 78.60; 72.10) (a) Vol. 102, No. 2, p. 819-828 (1987). K . MATSUURA, S. KISHIDA, Y . FUKATA, a n d I. TSURUMI
•Correlation between the 1.1 and 1.45 eV Emission Bands and the F + Optical Absorption Bands in ZnS Crystals (78.50 and 78.55; 61.70; S8.U) (b) Vol. 143, No. 1, p. 275-280 (1987).
A . N . TRUKHIN
•Temperature Dependence of Luminescence Decay Kinetics of Self-Trapped Excitons, Germanium and Aluminium Centres in Crystalline Quartz (78.55; 71.35; S10.1) (b) Vol. 143, No. 1, p. K83-K88 (1987). A . K . U P P A L , S. N . CHATURVEDI, a n d N . NATH
•Effect of Killer Impurities on the Phosphorescence of CaS: Cu and CaS: Ce (78.55 ;S8) (b) Vol. 143, No. 1, p. K89-K93 (1987).
Subject Index
246 H . OPYRCHAL a n d M . MANFREDI
Aggregation Processes in NaCl: Eu 2 + System. Eu 2 + Concentration Dependence of the Characteristics of the Aggregates Formed at Room Temperature (61.70; 78.55; S9.ll) (a) Vol. 103, No. 1, p. 9 3 - 9 9 (1987). T . WILSON a n d E . M . M C C A B E
Photoluminescence and Optical Beam Induced Current Images of Defects in Semiconductors (61.70; 72.40; 78.55) (a) Vol. 103, No. 1, p. 107-113 (1987). A . E . OVECHKIN, V . D . RYZHIKOV, G . TAMULAITIS, a n d A . ZUKAUSKAS
•Luminescence of ZnW0 4 and CdW0 4 Crystals (78.55; S l l . l ) (a) Vol. 103, No. 1, p. 285-290 (1987). E.
and M. Guzzi •Photoluminescence in Ternary Semiconducting Alloys. The CdGa2j (Sb 2 Te3) ) ,) I Solid Solutions (y = 0.6) (65.40; 65.70; S8; S8.15) (a) Vol. 104, No. 2, p. 6 7 9 - 6 8 6 (1987).
S8.16. Higher compounds
357
S8.16. Higher compounds P . J . S . FOOT, T . K A T Z , S . N . PATEL, B . A . NEVETT, A . R . PIERCY, a n d A . A . BALCHIN
The Structures and Conduction Mechanisms of Lithium-Intercalated and Lithium-Substituted Nickel Phosphorus Trisulphide (NiPS 3 ), and the Use of the Material as a Secondary Battery Electrode (Review Article) (72.20; 61.60; S8.16) (a) Vol. 100, No. 1, p. 1 1 - 2 9 (1987).
L . I. HAWORTH, I . S . AL-SAFFAR, a n d R . D . TOMLINSON
Electrical Characteristics of Melt Grown CuInTe 2 Single Crystals (72.80; 71.55; S8.16) (a) Vol. 99, No. 2, p. 6 0 3 - 6 1 0 (1987).
L . K . SAMANTA
On Some Properties of I 2 -IV-VI 3 Compounds (78.20; S8.16) (a) Vol. 100, No. 1, p. K 9 3 - K 9 7 (1987). M . A . ALDZHANOV, N . G . GUSEINOV, a n d Z . N . MAMEDOV
Heat Capacity of TlGaSe 2 (65.40; S8.16) (a) Vol. 100, No. 2, p. K.145-K148 (1987). F . M . KAMARLY a n d A . Y u . YANGIROV
Magnetic Susceptibility of the (SnTe) 1 _ :( -(EuTe) I System (75.20; 72.80; S8.16) (a) Vol. 101, No. 1, p. K 6 1 - K 6 3 (1987).
S . M . PATEL a n d V . G . KAPALE
AgGaSe 2 /Al Thin Film Schottky Barrier Diodes (73.30 and 85; S8.16) (a) Vol. 101, No. 1, p. K.87-K.92 (1987). S . N . TOUBEKTSIS, J . A . KALOMIROS, L . V . GIOBLIAKIS, K.. M . PARASKEVOPOULOS, A . N . ANAGNOSTOPOULOS, a n d E . K . POLYCHRONIADIS
On the Growth and Characterization of the System TlBiSe 2 -TlBiTe 2 (61.60; 72.80; 78.20; S8.16) (a) Vol. 101, No. 2, p. 355—360 (1987).
I. V . BODNAR, B . V . K O R Z U N , a n d A . P . CHERNYAKOVA
Microhardness of the A I B III C2 I Ternary Semiconductors and Their Solid Solutions (62.20; S8.16) (a) Vol. 101, No. 2, p. 4 0 9 - 4 1 9 (1987).
N . S . ORLOVA a n d I . V . BODNAR
The Anisotropy of Ihe Thermal Expansion in the AgInC 2 ' Chalcopyrite-Type Compounds from the X-Ray Diffraction Data (65.70 ;-S8.16) (a) Vol. 101, No. 2, p. 4 2 1 - 4 2 5 (1987).
Subject Index
358 G . C H . CHRISTAKUDIS, S. K . PLACHKOVA, a n d L . E . SHELIMOVA
Thermoelectric Power of (GeTe) 1 _,((Ag 2 Te) 1 _ JI (Sb 2 Te 3 ) J ,), Solid Solutions (y = 0.6, O S i S 1) (72.20; S8.16) (a) Vol. 102, No. 1, p. 357-366 (1987).
S. R . DHANALAKSHMI,
T . NAGARAJAN,
S. RAMASAMV,
R . N . VISWANATH,
GEETHA
BALAKRISHNAN,
and
G . V . SUBBA RAO
Positron Lifetime and Microstructures in Chevrel Phase Compounds (78.70; 61.70; S8.16) ( a ) V o l . 1 0 2 , N o . 2, p . 5 8 3 - 5 8 8 ( 1 9 8 7 ) .
G . VAN TENDELOO, D . VAN DYCK, S. KUYPERS, H . W . ZANDBERGEN, a n d S. AMELINCKX
Electron Diffraction Effects in Mixed Layer Compounds. II. Applications (61.14; SI.2; S8.16) (a) Vol. 102, No. 2, p. 597-608 (1987).
E . MARQUEZ, P . VILLARES, a n d R . JIMENEZ-GARAY
Bulk Thermal Switching in As-Se-Te Semiconducting Glasses with a Coplanar Point Electrode Configuration (72.80; 61.40; S8.16) (a) Vol. 102, No. 2, p. 741-749 (1987).
V . A . ALIEV, E . F . BAGIRZADE, N . Z . GASANOV, a n d G . D . GUSEINOV
Electric Conductivity of TlInS2 and TlGaSe 2 Crystals in the Region of Phase Transitions (72.80; 64.70; S8.16) (a) Vol. 102, No. 2, p. K109-K112 (1987).
S. MANHAS, K . C . KHULBE, , D . J . S. BECKETT, G . LAMARCHE, a n d J . C . WOOLLEY
Lattice Parameters, Energy Gaps, and Magnetic Properties of the Cd^Hg^Mr^Te Alloy System (75.30; 61.30; 71.25; S8.16) (b) Vol. 143, No. 1, p. 267-274 (1987).
and M. Guzzi Photoluminescence in Ternary Semiconducting Alloys. The CdGa 2x In 2(1 _ x) Se 4 System (78.55; S8.16) (a) Vol. 103, No. 1, p. 291-296 (1987).
E . GRILLI
V . A . ALIEV, E . F . BAGIRZADE, N . Z . GASANOV, a n d G . D . GUSEINOV
Behaviour of the Urbach Edge at Phase Transitions in TlGaSe 2 Single Crystals (78.40; 64.70; 71.35; S8.16) (b) Vol. 143, No. 2, p. K155-K160 (1987).
E . A . VINOGRADOV, N . M . GASANLY, L . G . GASANOVA, A . Z . MAGOMEDOV, a n d V . I. TAGIROV
Infrared Reflectivity Spectra of Cu 3 In 5 S 9 Layer Single Crystals (78.30; 63.20; S8.16) (b) Vol. 144, No. 1, p. K73-K.76 (1987).
S8.16. Higher compounds
359
H . NEUMANN, G . K Ü H N , a n d W . MÖLLER
Heat Capacity and Lattice Anharmonicity in Cu-III-VI 2 Chalcopyrite Compounds (65.40; S8.16) (b) Vol. 144, No. 2, p. 565-573 (1987).
G . A . M E D V E D K I N , Y U . V . R U D , a n d M . A . TAIROV
Optical Band Edge Absorption in CuInSe2 (78.20; S8.16) (b) Vol. 144, No. 2, p. 809-816 (1987).
P . G A R D , C . SOURISSEAU, a n d O . GOROCHOV
Effect of Metal Substitution in ZrS3 and TiS3 Compounds. Electronic, Raman, and Resonance Raman Study of Zr, ^Ti^Sj Ternary Phases, 0 < x < 1 (78.30; 63.20; S8.16) (b) Vol. 144, No. 2, p. 885-901 (1987).
K . D . BRONSEMA a n d J . M A H Y
One-, Two-, and Three-Dimensional Order in and Four-Dimensional Description of K i V 5 S 8 (0.5 g x g 0.7) (61.60; S8.16) (a) Vol. 104, No. 2, p. 603-618 (1987).
B . VENGATESAN, N . K A N N I A H , a n d P . RAMASAMY
CVT Growth, Microhardness, and Electrical Characterization of ZnGa 2 S 4 Single Crystals (62.20 and 72.80; S8.16) (a) Vol. 104, No. 2, p. K 9 3 - K 9 6 (1987).
360
Subject Index
S9. Halides W . Y . ZENG, J . F . HIGGS, a n d A . ANDERSON
Lattice Dynamics of Tin Tetrabromide (63.20; S9) (b) Vol. 139, No. 1, p. 8 5 - 9 6 (1987).
J . LAKSHMANA RAO
Optical Absorption Spectrum of Cr 3 + Ions Doped in NH 4 C1 Single Crystals (71.55; 78.50; S9) (b) Vol. 139, No. 1, p. 241-244 (1987).
N . V . UNNIKRISHNAN, H . S. BHATTI, a n d R . D . SINGH
Two-Photon Photoconductivity in Cdl 2 under Double Beam Laser Excitation (72.40; S9) ( b ) V o l . 139, N o . 1, p . K 4 1 - K 4 5 ( 1 9 8 7 ) .
M . SALEEM, M . KADRI, a n d R . C . AGRAWAL
Transport Properties of a Cationic Superionic Conductor (66.30; S9) (a) Vol. 99, No. 1, p. 9 1 - 9 5 (1987).
M . KUMAR], K . KUMARI, a n d N . DASS
On the Melting Law at High Pressures (64.70; S2; S9) (a) Vol. 99, No. 1, p. K 2 3 - K 2 6 (1987).
D . NEOGY a n d T . PUROHIT
The Behavior of Active Centers in a Laser Host. A Crystal Field Investigation of Sm3 + in LaF 3 Single Crystal (71.70; 65.40; 75.30; S9) (b) Vol. 139, No. 1, p. 519-525 (1987).
J . C . KRUPA, C . K H A N MALEK, P . DELAMOYE, B. MOINE, a n d C . PEDRINI
Observation of an Incommensurate Structure by Optical Spectroscopy with a 5f Ion as an Internal Probe. U 4 + -ThCl 4 System (78.50 and 78.55; 71.70; S9) (b) Vol. 140, No. 1, p. 289-300 (1987).
P.
B. CHANH, C. COURSEILLE, C. H A U W , A. MÉRESSE, and M . Couzi The Imma 144, 675 (1987) (a) 102, K49 (1987) see under letter " R " (b) 140, 589 (1987) (a) 101, 577 (1987) (b) 143, 783 (1987) (a) 101, K23 (1987) (a) 104, K61 (1987) (b) 140, 631 (1987) (b) 141, K173 (1987) (b) 142, 191 (1987) (b) 144, K7 (1987) (a) 102, 425 (1987) (a) 103, K57 (1987) (a) 100, 277 (1987) (a) 101, K55 (1987) (b) 140, 149 (1987) (b) 142, K7 (1987) (b) 139, K63 (1987) (a) 102, K117 (1987) (a) 103, K37 (1987) (b) 142, K143 (1987) (b) 143, 289 (1987) (a) 102, 537(1987) (a) 101, 37(1987)
72.20; S8.15 78.30; S8 71.20; 71.38; S1.2 71.35 and 71.55 71.35 and 71.55 63.20 and 78.30; 61.70; S 7 . l l ; S7.12 61.40 and 62.50; 72.15; SI.2; S3 74.30 and 74.50; SI.2 78.55 and 78.60; 71.55; S7.15 68.55 and 78.65; 64.75; S7.15 73.40 and 78.60; S7.15 75.60; S10 61.70 and 71.55; 78.55; S5.ll 75.50 and 78.20; 61.40; S10.15 74.70; S10 76.30; 71.25; S5.11 73.20 71.55 and 73.40 61.70 and 78.70; S 5 . l l ; S7.ll 65.70; S7.ll 61.80; 61.70; 78.70; S7.1 71.45; S7.16 78.20 and 79.20; 71.25; S7.16 73.40; 72.40; S5.11 72.20; 71.30; S10.1 66.30; 61.70; S5.ll 73.30; S8.1 78.20; S8.ll 72.40 and 73.60; 78.65; S8.15 71.55; S7.1 78.20; 71.45; S12 61.70; 62.20; S9.11 71.20 and 71.25; 64.30; S2 77.80; S i l 75.20; 75.25; 75.50; 76.80; Sl.l ; S1.4 77.20 and 77.40; S9.12 78.20; 71.35; S5.2 68.48 and 79.60; S10.15 75.50; 74.70; S10.15 78.70; S9.16 78.70; S12 71.10 and 78.70; S 9 . l l ; S9.12 73.40 78.50; S7 78.50; S7 72.20; 73.60 75.70; SL.L 71.70; 75.30; 78.20; SI.4 61.40 and 61.70; S10.1 72.15 and 75.60; SI.4 74.70; S10 74.70; S10 71.36 78.30; 71.36; S10 61.70 and 78.70; S5.11 ; S7.ll 61.60; 64.70; 76.30; S10
Author Index C . S. SUNDAR WENYUANSUN ZHENGMINSUN
(a) 102, (a) 102, (a) 101,
139(1987) 279(1987) K 9 3 (1987)
6 4 . 7 5 and 7 8 . 7 0 ; 6 1 . 7 0 ; S 4 62.40; 64.70; SIL 61.30; S12
SUN ZHI WEN
see under letter " W "
P. SÜPTITZ
(a) 101,
K 9 (1987)
66.30; S8
(a) 1 0 4 ,
661 ( 1 9 8 7 )
66.30; S8
I.V.SUR M . SUSZKIEWICZ
(a) 103, 185(1987) (b) 142, K 1 7 3 ( 1 9 8 7 )
72.20 and 8 5 ; S5.11 7 6 . 8 0 ; SL:2
M . SUSZYSISKA K . SÜVEGH S.SUZUKI
(b) (a) (b) (a) (b)
7 1 . 5 5 ; 7 8 . 5 5 ; S9.LL 61.70; 76.80; 78.70; S4 63.20; 65.70; S1.3 72.15 and 75.50; S1.62 78.50
139, 103, 143, 103, 141,
527(1987) 397(1987) 99(1987) 199(1987) K 8 3 (1987)
P. SVOBODA
(b) 144, K99 (1987) (a) 103, K119 (1987)
71.55; S5.ll ; S5.12 75.60; S10
A . T . SWALSKI M . A . S . SWEET
(a) 104, (a) 100,
183(1987) K 6 7 (1987)
6 1 . 7 0 ; 6 2 . 2 0 ; S5.LL 78.60; S8
W. R. D. W.
(a) (b) (a) (a)
555(1987) 595(1987) K 3 3 (1987) K 4 9 (1987)
78.70; 78.30; 74.70; 77.80;
V . N . SVANIDZE
SWIATKOWSKI SWIETLIK SVKOROVÄ A . SYSLO
A. SzAsz
102, 140, 103, 102,
A. SZCZEPAÜSKI Cs. SZELES A. SZLAFEREK
(b) (b) (b) (a) (a)
M . SZUSZKIEWICZ
(b) 139,
J. SZNAJD
140, 140, 142, 103, 104,
121 (1987) 415(1987) 379 (1987) 397(1987) 731 (1987)
68.45 and 68.55; 71.35; S1.2; S1.62 64.10 and 65.50 62.30 61.70; 76.80; 78.70; S4 61.40 and 68.55 ; 72.15; SI.1
205(1987)
71.25; 61.55; 76.80; S I . 1 ; S1.2
(b) 140, K.155 (1987)
(b) (b) (b) (b) (a)
141, K79 (1987) 140, 141 (1987) 141, K79 (1987) 144, K45 (1987) 101, 567(1987)
K. TABATA
(a)
99, K121 (1987)
V . I. TAGIROV
N. H. TAHER
(b) 144,
(a) 99,
K73(1987)
M . A. TAIROV
(b) 144,
809(1987)
S. SZUSZKIEWICZ K. SzYMArtsKi
S. TAKÂCS
H. TAKADA M. TAKAHASHI K. TAKARABE
Y . TAKASHIMA T . TAKASUGI M . TAKEDA N. TAKEUCHI
99, 99, 99, 142,
611 (1987) 267(1987) 611 (1987) 605(1987)
(b) 143, (b) 143,
519 (1987) K 6 7 (1987)
G . B . TALAPATRA
(a) (a) (a) (a) (a) (b) (a) (a) (b)
M . TAMAKI
(a) 103,
T . TAKEUCHI H . M.TALAAT
105(1987)
(b) 1 4 4 , K 1 2 5 ( 1 9 8 7 )
(a) (a) (a) (b)
68.48; S9.16 6 3 . 2 0 ; 7 1 . 3 8 ; S12.1 S10 SIL
103, K 6 9 ( 1 9 8 7 ) 102, 697(1987) 101, 25(1987) 99, K135 (1987) 102, 293(1987) 140, K 1 1 3 ( 1 9 8 7 ) 102, 301 ( 1 9 8 7 ) 104, 755 ( 1 9 8 7 ) 141, 351 ( 1 9 8 7 ) 199(1987)
75.10
78.70; SI.1 ; S1.2 71.25; 78.70; SL.L ; S1.2 78.70; SL.L ; S1.2 75.25 and 78.70 61.55 and 76.80; Sl.l
75.50; S1.4 78.30; 63.20; S8.16
64.60
78.20; S8.16 74.30
75.50; 75.60; Sl.l 75.20 and 75.50; Sl.l ; S1.2 75.50; 75.60; Sl.l 71.25 and 78.20; S8 7 1 . 2 5 and 7 8 . 2 0 ; S 8 78.30; S8 61.50 and 61.60; S7.16 61.70; 61.55; S1.2 6 1 . 1 4 ; S 4 ; S5.LL 7 8 . 6 0 and 7 9 . 7 5 ; S 1 0 62.20; S 9 . l l 61.70 and 71.55; S10.1 73.60; S4 68.55 and 78.65; S I . 2 78.55; 71.35; S12 72.15 and 75.50; S1.62
456 G . TAMULAITIS Q . TAN M . TANAKA SHENG-QUN TANG S . TANIGUCHI B . K . TANNER D . B . TANNER W . TANSKA-K_RUPA L . V . TARANENKO G . TAREY T . TARNÓCZI J . TATARKIEWICZ
E . TAUTE H . M . TAWANCY M . TAYA NGUEN MIN TCHU J . TEILLET M . TEJEDOR P . TEKIEL E . R . LÓPEZ-TELLEZ M . J . TELLO V . L . TEMEROV G . TEMPUS G . VAN TENDELOO
M . K . TENG K . TENNAKONE M . TENNAKUN K . TERAO O . V . TERLETSKII A . TEPORE G . TESTE DE SAGEY K . P . THAKUR V . K.. THAKUR N . G . THEOFANOUS W . THIELEMANN O . THIEMANN M . THIRUMAVALAVAN T R A N THOAI D U Y BAO A . THOMAS
M . E . THOMAS G . THÖRNER I. THURZO DECHENG TIAN I . N . TIMCHENKO
Author Index (b) 142, 629 (1987) (a) 103, 285 (1987) (a) 103, 421 (1987) (a) 104, 723 (1987) (b) 143, K107 (1987) (b) 142, 9 (1987) (a) 102 711 (1987) (a) 103, 263 (1987) (b) 139, K81 (1987) (b) 140, 589 (1987) (b) 144, 863 (1987) (b) 141, 333 (1987) (a) 100, K177 (1987) (b) 139, 409(1987) (b) 140, 369 (1987) (b) 142, K101 (1987) (b) 142, 437 (1987) (a) 99, 461 (1987) (a) 102, 815 (1987) see under letter " N " (a) 103, 257(1987) (a) 101, 549 (1987) (b) 140, K.133 (1987) see under letter " L " (b) 143, 299 (1987) (b) 144, 825 (1987) (a) 101, 543 (1987) (a) 104, 213 (1987) (a) 101, 339 (1987) (a) 102, 597 (1987) (a) 103, 45 (1987) (a) 103, K1 (1987) (a) 99, 641 (1987) (a) 103, 491 (1987) (a) 104, K.57 (1987) (a) 100, 645 (1987) (b) 139, 485 (1987) (b) 144, 661 (1987) (a) 100, K35 (1987) (a) 103, 375 (1987) (b) 144, 529 (1987) (b) 142, 401 (1987) (a) 104, K141 (1987) (a) 99, 657 (1987) (a) 100, 369 (1987) (b) 143, K115 (1987) (a) 103, 431 (1987) see under letters "TR" (a) 100, K81 (1987) (a) 101, K9 (1987) (a) 101, K183 (1987) (b) 141, K163 (1987) (b) 144, 609 (1987) (a) 99, K91 (1987) (a) 101, 165 (1987) (a) 102, 781 (1987) (b) 139, 559 (1987)
78.55; S8.13; S8.15 78.55; Sil.1 62.40; S4 62.40; S4 75.10 61.25; S4 73.60; SI ;S1.2;S1.3 75.60; 61.10; S10 63.20 and 78.30; S9.15 75.20; 75.25; 75.50; 76.80; Sl.l ; S1.4 78.55; S8.12; S9 78.35 and 78.45; S7.13 75.40; S1.2 61.70 and 63.20; 78.30; S5.11 63.20; 61.70; 78.50; S7.12 61.70 and 63.20; 78.30; S8.13 79.20 64.60; 61.14; S1.2 77.70; S12 76.80; 75.50; SI 1.2 75.60; Sl.l 74.60 77.40 77.40; 77.80 75.50; SI 1.2 61.70; 62.20; S4 61.14 61.14; S1.2; S8.16 61.60; 61.14; 61.16; S10 61.50; S10 77.20 and 77.80; S9.16 73.60 and 78.65; 68.55; 72.40; Sil 71.55 and 72.80; S10.1 78.60; 71.55; S7 71.25 and 75.50; 75.80; Sl.l 71.25; 71.35; 75.30; S8.15 73.60; S8 61.16; 61.70; S10 64.60; 62.20; SI ;S1.2;S4 63.20; 65.40; S4 72.40 and 85; S7.12 73.40 and 85; 78.55; 78.60; S7.15 73.40 and 85; 78.55; 78.60; S7.15 76.30; Sil.1 62.20; S9.16 78.20; S8 66.30; S8 78.20; S8 78.20; S10.1 79.60; 73.20 73.40; 71.55; S7.12 73.40; S7.12 75.50; 61.40; Sl.l 72.20; 71.55; S8.12
Author Index J. Tifco P . TIPPING V. V. TISHCHENKO S. TISHIN K . TITTELBACH-HELMRICH
K . TKACZ
V. A . TOLOKONNIKOV I. TOMÄS M . TOMASEK P. TOMCZAK C. N . TOMÉ A . TOMITA R. D . TOMLINSON J. W . TOMM A . TOPOLNICKA V. V. TOPOROV C. TOSELLO S. N . TOUBEKTSIS G . KH. TOUMBEV A . TOUMI N . TOUPANCE C. TOURAMANIS G . TOUSSAINT R. TOVAR B. M . V. TOVARNITSKII K . D . TOVSTYUK M . G . TOWNSEND P. D . TOWNSEND C. TRALLERO GINER N . T . TRAN TRAN THOAI DUY BAO M . TRAPP H . - R . TREBIN M . M . TRIBEL G . P. TRIBERIS R. TRIBOULET W . TRIFTSHÄUSER G . C. TRIGUNAYAT S. TRIMPER B. B. TRIPATHI R. B. TRIPATHI D . N . TRIPATHY A . TÄISKA J. TRITT-GOC E. TROJNAR
A . L. TRONCONI
(a (a (b (a (a (a (a (a (a (a (b (a (a (a (b (b (b (a (a (a (a (b (b (a (a (a (a (b (a (b (a (a (b (a (a (b (b (a (b (b (a (b (b (a (a (a (a (b (b (a (b (a (a (a (a (a (b
99 102 144 102 99 100 100 100 100 101 142 102 100 100 139 142 144 99 99 103 103 139 142 100 101 101 100 140 102 140 99 104 141 103 101 139 144 99 139 140 100 144 142 100 100 102 103 141 141 100 140 102 100 102 103 103 140
57 153 863 565 K97 69 567 K123 667 263 K147 K.77 527 289 125 551 271 Kl 35 603 K61 39 K157 237 53 355 K19 535 361 577 155 K69 K41 K107 K107 253 433 K19 K143 145 449 545 73 461 Kl 69 K51 549 337 369 K97 K185 477 K61 K57 Kl 17 527 K37 K65
1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987)
61.50; S10 61.80 and 78.70; 62.20; 64.75; Sl. 78.55; S8.12 ;S9 61.40 and 78.70; S12 71.55 and 73.30; S5.11 61.70; 71.55; S5.ll 71.55; 61.70; S5.ll 61.70; S5.ll 77.80; S12 77.80; S12 71.10 61.50 and 62.20 72.40 and 73.40; S8.12 75.30; 75.50; S l . l ; S1.2 68.20 and 73.20; 79.60; S5.11 75.10 61.70 and 66.30 78.60 and 79.75 ; S10 72.80; 71.55; S8.16 78.55 ; S8.15 61.55; 61.12; S5 71.55 and 78.30; S7.I1 63.20 and 71.55; 71.38; S7.ll 61.80; 65.50; S1.2 61.60; 72.80; 78.20; S8.16 65.90 and 76.80; Sil 68.20 62.20; S5.11 ; S5.12 78.70; 61.80; S9.ll; S9.12 71.55; 61.70; 71.25; S8.13 66.70; S8.15 72.80; 71.55; S8 71.70; S8.1 74.70; S10.15 78.60; Sl 1.1 72.20 and 73.60; S7.12; S8.11 71.38 and 73.40 73.40 and 85; S5.ll ; S6 71.45 and 73.20; 61.80; S4 61.80 and 73.20; 71.45; S4 68.55 and 78.65; 64.75; S7.15 61.30 and 61.40 71.35; 76.90; 78.55; S12 72.80; S7.16 72.40 and 76.40; S8.13 78.70; Sl.l ;S1.2 61.50; 61.70; S9 61.30 63.20; S3 75.30; S11.2 71.45; 71.25; S2; S4 61.60 and 64.70; S10 76.60; Sil 74.70; S10 74.70; S4 74.70; S10 75.30
Author Index
458 A . TROPER A . N . TRUKHIN K . G . TRUNI L. T . TSANKOV A . A . TSERTSVADZE D . I. TSIULYANU D . TSOUKALAS T . TSUCHIDA I. TSURUMI
A . I. TUGUSHI L. TULACH R . TURCU I. E. TÜRE J. TUTOR N . A . TYAPUNINA I. TYCHINA T . TYLISZCZAK I. E. TYSHCHENKO
(b) (b) (a) (b) (b)
140, 127 (1987) 143, K 8 3 (1987) 104, 549 (1987) 142, 279 (1987) 73(1987) 140,
(a) 102, K 1 0 3 (1987) 100, 461 (1987) 104, 627 (1987) 140, 347 (1987) 142, 6 1 7 ( 1 9 8 7 ) 142, K 7 9 (1987) 143, 275 (1987) 103, 613 (1987) 142, K l (1987) 100, K l 3 (1987) 100, 149 (1987) 100, 681 (1987) 139, 433 (1987) 99, 353 (1987) 100, 645 (1987) 102, 181 (1987) 102, 265 (1987)
(a) (a) (b) (b) (b) (b) (a) (b) (a) (a) (a) (b) (a) (a) (a) (a)
71.10; 71.25; S 4 ; S12.1 78.55; 71.35; S10.1 61.10 76.80 79.75; 61.70; 71.35; S9.LL 72.40 a n d 73.40; S5.LL ; S8 66.30; S5.LL 61.70; 72.15; S4 61.70; 76.30; 78.50; S8.11 61.70 a n d 78.50; S8.LL 78.50 a n d 78.55; 61.70; S8.11 78.50 a n d 78.55; 61.70; S8.11 78.50; 61.70; S8.12 62.80; 61.70 61.80 a n d 71.55; S5.LL 68.55 a n d 73.60; 78.65; S8 8 5 ; 68.20 ; 73.30; S8.12 72.20 a n d 73.60; S 7 . 1 2 ; S8.LL 61.70; 62.40; S 9 . U 78.60; 71.55; S7 61.40; 61.70; 76.80; SL.L ; S1.4 61.80; 66.30; S5.LL
(a) 99, 193 (1987) (a) 99, 295(1987) see under letter "S" (b) 140, 233 (1987) (a) 103, K69 (1987; S. R . UGLOV (b) 143, K141 (1987) B. ULRICI (b) 143, K135 (1987) W . ULRICI (a) 99, 225 (1987) (b) 141, 191 (1987) (b) 143, 195 (1987) (b) 143, 207 (1987) (b) 143, Kl35 (1987) (a) 103, 205 (1987) T . UNGÂR (a) 104, 157(1987) (b) 143, K95 (1987) K . UNGER N . UNNIKRISHNAN (b) 139, K41 (1987) (b) 142, K109 (1987) J. C. UPADHYAYA U . N . UPADHYAYA (a) 99, 15 (1987) (b) 143, K89 (1987) A . K . UPPAL (a) 99, 467 (1987) K . URBAN (b) 144, 287 (1987) R . URBAN (a) 103, 637 (1987) M . URBANCZYK A . URBANIAK-KUCHARCZYK (b) 139, K141 (1987) (b) 140, 509 (1987) H . URBSCHAT (b) 139, 597 (1987) N . URYÛ A . E. USACHEV (b) 141, K.129 (1987) V. D . USIKOV (a) 101, 503 (1987) A . I. USTINOV (a) 99, 81 (1987) (b) 139, K9 (1987) D . I. UZUNOV (b) 139, Kl07 (1987)
73.40; S5.ll 78.70; S3; S9.12; S10; S i l . 1
G . VACQUIER
(a) 100, K 1 2 9 (1987)
61.70; S1.63
(a) 104, K147 (1987)
61.70; S1.63
H. R. U. O.
ÜBENSEE UBGADE SCOTTI DI UCCIO UEMURA
72.15 ; 61.25; 75.20; S4 61.50 and 61.60; S7.16 71.25 and 78.70 63.20 and 78.30; 61.70; S7.ll; S7.12 71.55 ; 72.40; 78.55; S7.12 71.55 ; 72.80; 78.50; 78.55; S7.ll 71.55 ; 76.30; 78.50; S7.12 71.55 and 76.30; S7.11 63.20 and 78.30; 61.70; S7.ll ; S7.12 72.40 ; 71.55; S7.12 61.10 and 61.70; S1.2 61.10 and 61.50; S5.ll 72.40 ; S9 63.20 ; S3 74.10 and 75.30; S1.4 78.55 ; S8 64.70 ; 61.40; S4 61.80 and 63.20; S4 73.40 ; S5.ll 78.70 ; Sl.l ; SI.2; S1.4 71.10 ; 75.20 75.10 ; 75.30 76.70 ; SIL 73.40 and 85 ; S5.ll; S7 61.50 ; SI.2 67.40 64.60
Author Index J . J . VAITKUS A . V . VAKULENKO J . A . VALBIS V . V . VALKOV T . A . VALKOVA J . SABÍN DEL VALLE V . VALVODA G . VANDERSCHAEVE J . VANDLIK M . VANÉÍEK E . I . VAPIREV R . A . VARDANYAN P . VARGAS J . VARGHESE P . VARTZELI-NIKAKI M . A . VASILEV S . V . VASILEV § . VASILIAUSKAS M . A . VASILIEV S . VASSERMAN V . VASSILEV G . D . VASSILIADES A . VASSON A . M . VASSON D . VASUMATHI C . VAUTIER V . VAVILOV G . J . VÁZQUEZ A . VAN VEEN N . VEERAIAH B . VELICKV B . VENGATESAN K . VENU T . F . VEREMEICHIK M . F . VERESHCHAK R . VERMA A . VÉRTES V . N . VERTOPRAKHOV S . Y A . VETROV E . VETTER Z . VLCHERKOVÁ NGUYEN A I VIET K . P . VLJAYAKUMAR R . VIJAYARAGHAVAN
V . S . VIKHRENKO VIKRAM KUMAR P . VLLLARES G . VLLLENEUVE A . VINCENT E . A . VINOGRADOV J . S . D I E Z VINUELA H . VINZELBERG R . N . VISWANATH
(a) 102, 719(1987) (b) 142, 417(1987) (b) 144, 835 (1987) (b) 142, 255 (1987) (b) 142, 255 (1987) see under letter "S" (b) 143, 471 (1987) (a) 103, K119 (1987) (a) 99, 405 (1987) (a) 100, 59(1987) (a) 104, 769(1987) (a) 100, K99 (1987) (b) 142, 279 (1987) (b) 142, 417(1987) (b) 144, 305 (1987) (a) 101, 479 (1987) (a) 104, K i l l (1987) (a) 102, 231 (1987) (a) 103, 125 (1987) (a) 102, K99 (1987) (a) 102, K121 (1987) (a) 102, 565 (1987) (a) 99, 237 (1987) (a) 102, 577(1987) (b) 143, 195 (1987) (b) 143, 195 (1987) (a) 102, 139(1987) (a) 101, 487 (1987) (a) 100, 645(1987) (b) 144, K119 (1987) (a) 100, 87 (1987) (b) 142, 587 (1987) (b) 140, 135(1987) (a) 104, K93 (1987) (b) 140, 251 (1987) (b) 144, 709 (1987) (a) 101, 361 (1987) (a) 101, K81 (1987) (a) 103, 397(1987) (a) 99, 537(1987) (b) 140, 103 (1987) (a) 101, K125 (1987) (a) 104, 79(1987) see under letter " N " (a) 101, K35 (1987) (b) 140, K47 (1987) (b) 140, K137 (1987) (a) 102, 759 (1987) (b) 140, 459 (1987) see under letter " K " (a) 102, 741 (1987) (b) 141, 379 (1987) (a) 100, 121 (1987) (b) 144, K73 (1987) see under letter " D " (a) 104, K61 (1987) (a) 102, 583(1987)
73.30; S8.1 73.20 and 78.55 78.60; 71.20; S9.ll; S9.12 75.30; 75.50 75.30; 75.50 63.20; 65.70; S1.62 75.60; S10 61.70; S7.12 61.70; SI .2 64.75; 68.45; 68.55; SI 1.2 78.40; S i l 76.80 73.20 and 78.55 61.70; 66.30; S1.2 78.65; S10.1 73.20 and 79.75; SI 1.1 61.55 and 79.20; SI.1 66.30 and 68.55; SI.61 72.20 and 73.40; S7.12 75.50; 68.20; SI. 1 ; SI.2 61.40 and 78.70; S12 72.20; S8 78.70 ; 61.80; S9.ll; S9.12 71.55; 76.30; 78.50; S7.12 71.55; 76.30; 78.50; S7.12 64.75 and 78.70; 61.70; S4 73.60 and 75.70; S1.2; SI.3 78.60; 71.55; S7 72.15; 63.20; S4 61.70; 68.45; 79.20; SI .2 78.50 and 78.60; S9.ll 71.25; 79.60; S8.15 62.20 and 72.80; S8.16 76.60; 63.90; S9.16 71.70; 78.50 61.80; 76.80; SI. 1 ; SI.2 77.20; S8 61.70; 76.80; 78.70; S4 73.40 and 77.30; 77.55; S10.1 68.30 61.70 and 68.55; SI.61 62.20; 61.70; SI.1 68.55 and 78.65; S8.ll 75.50; 76.80; SI 1.2 75.30 and 76.80; SI 1.2 76.80; 66.30; S10.15 68.30; S5.2 72.80; 66.30; 62.40; 78.30;
61.40; S8.16 76.60; S9 61.70 63.20; S8.16
75.50; 74.70; S10.15 78.70; 61.70; S8.16
Author Index
460 V . VLTEK J . F . VITTORI V . I. VLADIMIROV N . A . VLASENKO M . VOELSKOW G . VOGL A . VOHRA J . VOITLÄNDER U . VOLAND G . VÖLKEL J . VÖLKL F . VÖLKLEIN H.VORMANN S . A . VOROBIEV
V . I . VORONKOVA Y U . V . VORONOV R . VOSZKA S . VRATISLAV
B. U. Vunöifc G. M. VujiCifc V . D . VULCHEV E . G . VYATKIN E . WACHTEL C . WÄCHTER W . B . WAEBER A . H . WAPIK M . WAGNER N . WAGNER J. C . H . WAI K . WAKAMURA J . WALCZAK F . WALLOW H . U . WALTER F . WALZ U . WALZER HONG WANG HUAFU WANG HUAQIN W A N G L. WANG LIANGYU W A N G R . WANG SHAO-JIE W A N G XIAOJUN W A N G X . H . WANG YENING W A N G Y . Y . WANG
(b) (a) (b) (a) (a) (b) (a) (b) (a) (b) (a) (b) (b) (a) (b) (b) (b) (b) (a) (b) (a) (a) (a) (a) (b) (b) (a) (b)
144, 145 99, 641 143, 43 100, 501 101, K101 144, 259 101, K.81 139, K19 103, 443 141, 343 101, K13 144, 315 143, 121 99, K15 140, K13 142, 49 143, K141 144, 487 101, 45 144, K77 101, 437 100, K3 100, K117 102, K61 143, 727 144, 537 99, K53 144, 487
1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987)
61.50 and 61.70; 61.20; 61.40 77.20 and 77.80; S9.16 61.70; 61.40 68.55; 64.75; 78.65; S10.1 61.80 and 68.55; S5.11 61.70; 66.30; 76.80; S1;S1.3;S4 77.20; S8 71.20; SI ; S1.3 65.70; S7.ll 76.30 and 77.80; Sil.1 62.20; S 7 . l l ; S7.J2 66.30; Sl.4 72.15 and 73.60; S4 66.30; 78.20; S l l . l 61.80; S5.ll 61.80; S5.ll 71.25 and 78.70 61.80; S5 61.60; 64.70; 77.80; S10.15 61.70; 76.30; 78.60; S9.15 62.20; 62.65; 65.70; S10.1 61.50; S l l . l 61.60 and 64.70; S l l . l 61.60 and 64.70; S10 75.10; 75.25 63.50 71.55; 72.80; S8 61.80; S5
(a) (a) (a) (a) (a) (b) (b) (a) (a) (b) (b) (b) (a) (a) (a) (b) (a) (b) (a) (b) (a) (a) (a) (a) (a) (a) (a) (a)
104, 102, 102, 102, 104, 141, 144, 101, 102, 142, 143, 142, 99, 100, 104, 140, 103, 142, 101, 144, 101, 99, 99, 102, 101, 104, 102, 102,
369 835 153 K43 K133 529 507 K23 537 605 519 K73 483 583 343 377 K113 287 K93 781 K93 47 339 165 K161 K79 279 537
1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987)
61.40; 64.80; 75.50; S1.2 78.65 61.80 and 78.70; 62.20 ; 64.75; Sl.l 75.60; Sl 1.2 75.60; Sl.l 71.70 and 76.30; S1.4 66.70; S l l . l 68.48 and 79.60; S10.15 61.70 and 78.70; S5.11 ; S7.11 71.25 and 78.20; S8 71.25 and 78.20; S8 75.50 and 76.30; S l l . l 62.20; 62.30; Sl.2 72.15; S4 61.70; 61.80; 71.55; 75.60; Sl.l 62.20 and 64.30; Sl 74.70; S10.15 78.30; 63.20; S l l . l 61.30; S12 75.10; 71.25 61.30; S12 61.14; S1.2; S4; S10.1 61.14; S1.2; S4 75.60 and 78.70; Sl.2 78.55; 78.60; Sl 1.2 61.70 and 62.20; S4 62.40; 64.70; S i l 61.70 and 78.70; S5.11 ; S7.11
Author Index Z. G. WANG B. M . WANKLYN WAN-LUN YU S. WAPLAK T . WARMINSKI M . WÄSCHE S . M . WASIM C . WEBER R . WEDELL L . K . WEERASENA D . WEGENER W . WEGENER A . W^GRZYN WEI-LI SHUEN H . WEINERT V . WEINHOLD C H . WEISE H . - J . WEISS L . WEISS W . WEISSFLOG C . WEISSMANTEL W . WELLER H . WEMAN B. G . WEN SUN ZHI W E N W E N - C H E N ZHENG L . WENDLER
G . WENDROCK M . WENDT WENYUAN SUN H . WENZL L . WERNER M . WERNER P . WERNER J. M . WESSELINOWA
R . N . WEST M . A . B . WHITAKER W . B . WHITE G . L . WHITTLE G . WIATROWSKI S . WLCKRAMANAYAKE
461 (a) 103, 389 (1987) (a) 104, K79 (1987) (b) 139, 337(1987) see under letter "Y" (a) 101, 427 (1987) (a) 99, K27 (1987) 9(1987) (a) 101, (a) 103, 145 (1987) (a) 99, K69 (1987) (b) 141, 529 (1987) (b) 139, 17(1987) (a) 103, 491 (1987) (b) 140, K27 (1987) (b) 143, 105 (1987) (a) 99, K.19 (1987) (a) 100, K.181 (1987) (a) 102, 769 (1987) see under letter "S" (b) 143, 611 (1987) (b) (a) (a) (b) (a) (a) (b) (a) (a) (a) see (b)
143, 511 (1987) 102, 265 (1987) 99, 491 (1987) 143, 625 (1987) 101, K77 (1987) 100, 553 (1987) 141, 111 (1987) 99, 581 (1987) 102, 571 (1987) 103, 175 (1987) under letter "Z" 141, 129(1987)
(b) (b) (b) (b) (b) (b) (a) (a) see (b) (a) (a) (a) (b) (b) (b) (a) (a) (b) (b) (a) (b) (b) (a)
141, 493 (1987) 142, 125 (1987) 142, 423 (1987) 142, K63 (1987) 143, 131 (1987) 143, 487(1987) 99, 73 (1987) 104, 769 (1987) under letter "S" 144, 361 (1987) 103, K61 (1987) 63 (1987) 104, 102, 687 (1987) 139, 329 (1987) 142, K85 (1987) 142, K113 (1987) 102, 107 (1987) 102, 127 (1987) 144, 793 (1987) 144, K69 (1987) 104, 397(1987) 85 (1987) 141, 143, 261 (1987) 103, 491 (1987)
61.70 and 62.20; Sl.l 61.70 and 62.20; S4 78.30; S i l . 1 64.70; 76.30; SI 1.1 64.60 and 76.30; Sil.1 61.10; 61.70; S10.1 65.90 ; 76.30; 78.60; S12 66.70; S8.15 71.70 and 76.30; S1.4 78.70; 61.80 73.60 and 78.65; 68.55; 72.40; SI 1 71.20 and 72.20; S5.ll 63.10 66.30; S1.2 75.80; S l . l ; S1.2 75.80; Sl.l ; S1.2 71.35 and 78.55; S7.11 78.65; 68.55; S1.63 61.80; 66.30; S5.11 62.20
63.50 and 71.25; S1.2 77.20; S12 68.55; 79.60; S7 71.20; 73.40 61.70 and 71.55; 72.80; 78.30; S5.ll 78.70; S12 73.60; S10.15 71.38 and 71.45; 68.30; 73.40; 77.30; 78.65; S7.12; S7.15 71.38 and 71.45; 63.20; 68.30; 73.40; S7.1 ; S7.15 71.36 and 71.45; 68.30 71.36 and 71.45; 68.30; 78.65 73.40; S7.12; S7.15 68.30 and 78.65; 71.36; 71.45; S1.3 71.38; 63.20; 68.30; 73.40; S7.1 ; S7.15 61.55; 61.10; 64.70; S4 64.75; 68.45; 68.55; SI 1.2 64.75; SI.2 78.55; S8.15 62.20; 61.70; SI 61.70; 71.55; S5.ll 77.80 77.80; SI 1.1 63.10 and 63.20 61.55 and 71.60; 78.70; S4 64.75 and 78.70; 61.70; SI 76.60 78.30; SI.63 75.30; 61.10; 76.80; Sl.l 63.20; 68.30 75.10 73.60 and 78.65; 68.55; 72.40; S i l
462
Author Index (a) 104, K 5 7 ( 1 9 8 7 )
71.55 and 72.80; S10.1
J . WIEHL
(a) 104,
863
1987)
M . WIENECKE
(a) (a) (a) (a) (b) (a)
101, 115 100, 1 9 9 102, 2 6 5 102, 6 7 9 141, K 5 3
1987)
78.55 and 78.60; 78.30; SI 1.2 61.70; 66.30; 72.80; S8 68.48 and 73.60; S1.61; S5.11 61.80; 66.30; S5.11 61.70; S 5 . l l 71.20; S 5 . l l
99,
345
1987)
(a) (a) (a) (b) (a) (a) (a) (a) (b) (b) (a) (b) (b) (b) (b) (b) (b) (b) (a) (a) (a) (b) (a) (a) (a) (a) (a) (a) (a) (a) (a) (b) (b) (b) (a) (b) (a) (b) (b)
104, 104,
157
1987)
K1
1987)
99,
K79
1987)
144, 101, 104, 103, 103, 139, 139, 100, 144, 142, 143, 141, 143, 143, 142, 101, 100,
K1
1987)
K45
1987)
369
1987)
107
1987)
631
1987)
609
1987)
409
1987)
143, 104, 104, 100, 100, 104, 104, 103, 104, 100, 139, 143, 140, 101, 144, 101, 143, 142,
(b) see see (a)
144, K 1 4 3 under letter under letter 103, 145
1987)
1987)
65.90; 76.30; 78.60; S12
(a) (a) (a) (a)
100, 102, 103, 104,
607
1987)
119
1987)
101
1987)
873
1987)
75.50; SI 1.2 61.55 and 78.70; 61.70; S M ; S1.2; S I . 3 ; S5.11 61.70; 61.80; 78.70; S7.12 77.80; 77.70; SI 1.1
S . W . M . S . WICKRAMANA Y AKE
E . WIESER
H . WIESNER W . WIERZCHOWSKI M . WLLKENS P. WILL G . O . WILLIAMS M . R . WILLIS N . WILLMANN T . WILSON
W. WlNDSCH K . WINER U . WINTER H . WIPF A . M . WITOWSKI U . WOGGON M . WÖHLECKE
E . P . WOHLFARTH A . WOJAKOWSKA A . WOJAKOWSKI W . WOJCIECHOWSKI S . WOJTYGA B . WOLF E.WOLF
•
R . WOLFRAT W . WOLKE H . WOLLENBERGER A . WOLNIEWICZ J . WOLNY E . WOLSKA J . WOODS J . C . WOOLLEY K . WOZNIAK A . WRZECIONO GAN JUN W U JLNHUA W u XLAOGUANG W U
Z. M. Wu Wu Li WUFU SHUN P . WÜNSCHE M . WURLITZER R . WÜRSCHUM B . WYNCKE
1987) 1987) 1987) 1987)
95
1987)
315
1987)
K101
1987)
611
1987)
415
1987)
91
1987)
755
1987)
569
1987)
K153
1987)
K47
1987)
99, K 1 3 1
1987)
K119
1987)
K33
1987)
K61
1987)
K87
1987)
199
1987)
287
1987)
569
1987)
39
1987)
569
1987)
681
1987)
213 267
1987) 1987)
437
1987)
K65
1987)
K29
1987)
K1
1987)
581
1987)
K161
1987)
61.10; 61.55; S 5 . l l ; S10.1 61.10 and 61.70; S1.2 61.70; 61.10; S1.2 62.20 61.80; 66.30 73.60; S12.1 61.40; 64.80; 75.50; S1.2 61.70; 72.40; 78.55 78.20; 78.55 76.60 and 77.80; S12 61.70 and 63.20; 78.30; S5.11 61.70; 61.10; S 5 . l l 66.30; S1.4 61.70 and 63.20; 78.30; S8.13 71.35 and 78.55; S 7 . l l 63.20 and 71.70 63.20 and 71.70 78.30 and 78.50; SI 1.1 75.30; S i l 72.80; 64.70; S9.16 72.15; S1.63 75.50; S1.63 75.40 68.45; S7.13 75.50; 74.70; S10.15 78.65; S7 68.48 and 73.60; S1.61 ; S 5 . l l 61.70; 61.80; 66.30; S1.2 61.60 and 64.75; S10.15 61.55; 61.12; S5 61.60 and 64.75; S10.15 85; 68.20; 73.30; S8.12 71.25; 78.20; S8.15 75.30; 61.60; 71.25; S8.16 61.50 and 72.80; 76.30; S12.1 75.50; S I . 1 71.36 61.40 and 64.70 71.25 and 71.38; S7.12 ;S7.15 75.10 75.10 and 75.30
"L" "S"
Author Index Y . B. XIA YI-BEN X I A XIANDUAN L I N XIAN-WU Z o u XLANG-TI M E N G KEQIN XIAO XIAO-GUANG LI XLAOGUANG W U XIAOHUA C H E N XIAOJUN W A N G XIAO-PENG H E XICHEN Y A N G ZHIWEN X I E XINGREN L I U L . Y . XLONG
Y. B. Xu XLXIANG X U YUHUAN X U N . N . XUAN XUEMING M A XUERONG G U
Y u . V . YABLOKOV G . P . YABLONSKII R . A . YADAV E . YAGI Y A - J U N SHANG 1 . 1 . YAKIMENKO E . B . YAKIMOV V . A . YAKOVLEV M . YAMADA S. YAMADA N . YAMAGUCHI H . YAMAMOTO
K . YAMAMOTO T . YAMAMOTO S. C . Y A N CHAN-SYUN-YANG FUMING Y A N G C . Z . YANG XICHEN Y A N G A . Y u . YANGIROV B. YANGUI V . K . YANOVSKII Y . D . YAO N . A . YARYKIN I . N . YASSIEVICH YENING W A N G YI-BEN XIA Y I - Y A N G ZHOU YIZHEN H E
(a) 103, 389 (b) 144, 601 see under lette see under lette see under lette (a) 102, 221 see under lette see under lette see under lette see under lette see under lette see under lette (a) 102, 781 see under lette (a) 9 9 , 97 (a) 104, K79 (a) 99, 165 (a) 103, K113 (a) 101, K143 see under lette see under lette
1987) 1987)
(b) 141, K129 (a) 103, K153 (a) 100, 109 (a) 104, K13 see under lette (b) 140, 559 (b) 141, 213 (a) 102, 687 (a) 101, 247 (a) 102, K33 (a) 103, K85 (a) 103, K149 (a) 100, K61 (b) 140, K23 (b) 141, K.179 (a) 103, K123 (a) 103, 153 (a) 104, K69 (a) 104, 715 (a) 101, 151 (a) 104, 799 (b) 142, K161 (b) 144, K143 (b) 142, 287 (a) 101, K61 (a) 103, 375 (a) 101, 45 (a) 100, 269 (a) 102, 687 (b) 140, 9 see under lette see under lette see under lette see under lette
1987) 1987) 1987) 1987)
61.70 and 62.20; SI.1 73.40; S5.12
"L"
"Z" "M"
1987)
61.40; 64.70; SI.3
"L" "W" "C" "W" "H" "Y"
1987)
75.50; 61.40; SI.1
"L"
1987) 1987) 1987) 1987) 1987)
61.70 61.70 and 62.20; S4 73.60; 72.40; S5.LL ; S6 74.70; S10.15 73.60 and 78.65; S12
"M" "G"
76.70; 77.50; 62.60; 61.70;
SII 63.20; S10.1; SII 64.70; S12 61.80; S4
"S"
1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) 1987) "W" "X" "Z" "H"
72.10; 73.40 72.10; 73.40 61.70; 71.55; S5.11 78.20; 61.80; S10.1 72.15; S4 62.20; S4 78.55; S7 75.50 and 75.80; SL.L; S 79.80 73.40; S5.11 ; S6; S7.12 73.40 68.55; S1.3; S4 75.50; SI.2 62.40; S4 68.55; 68.48; SI.61 75.50; 75.60; SL.L ; S1.4 75.10 75.10 and 75.30 78.30; 63.20; SI 1.1 75.20; 72.80; S8.16 61.16; 61.70; S10 61.60; 64.70; 77.80; S10 72.15; 64.70; Sl.l 61.70; 71.55; S5.ll 79.20; S7.1
464 YONG-CHANG DU YONG ZHU K . YOSHIDA F . W . YOUNG, J R . MOHEB H . YOUSSEF S . M . YOUSSEF T . H . YOUSSEF WAN-LUN YU
N. T. Yu
YUANDA DONG YU-DIAN FAN S. G . YUDIN YUHUAN X U Y U K CHO W . ZACHARKO N . ZAFAR M . ZAFAR IQBAL A . ZAIOUR V . I. ZAITSEV O . V . ZAKHARCHUK K . ZAKRZEWSKA R . ZAKULA A . J . ZALESKI
V . A . ZALOJ M . ZALUZNY H . W . ZANDBERGEN N. P. E. K.
ZARUBOVA ZAUMSEIL A . ZAVADSKII ZAVSTA
A . ZEGHIB A . ZEHE V . ZELEZNV W . Y . ZENG A . ZENTKO BANGWEI ZHANG FANGQING ZHANG
P. Q . ZHANG T . M . ZHANTIKIN MIN-GUANG ZHAO
RIUWEN ZHAO O . V . ZHARIKOV S . ZHENEVA WEN-CHEN ZHENG
Author Index see under letter " D " see under letter " Z " (b) 142, 617 (1987) (a) 104, 273(1987) (a) 102, 287 (1987) (a) 102, 301 (1987) (a) 102, 273 (1987) (b) 140, 203(1987) (a) 102, 571 (1987) see under letter ' D " see under letter " F " (a) 101, 123 (1987) see under letter " X " see under letter " C " (b (a (a (a (a (a (a (b (b (a (a (a (b (b (b (a (a (a (a (b (b (a (a (b (b (a (a (a (a (b (a (a (b (b (b (b (b (a (b (a (b (b
140, K33 (1987) 99, K65 (1987) 99, K65 (1987) 100, K139 (1987) 100, K135 (1987) 103, 185 (1987) 141 (1987) 99, 140, 467 (1987) 143, 806 (1987) 102, K117 (1987) 103, 527 (1987) 103, K37 (1987) 143, 549 (1987) 141, 427 (1987) 144, 575 (1987) 102, 597 (1987) 103, 45 (1987) 101, 239 (1987) 100, 95 (1987) 142, 559(1987) 143, 249(1987) 101, 487 (1987) 104, K33 (1987) 140, 595 (1987) 139, 85 (1987) 99,
102,
275 (1987)
199 165 101, K1 142, K35 99,
(1987) (1987) (1987) (1987)
103, K 1 2 5 ( 1 9 8 7 )
101, 361 (1987) 139, K87 (1987) 140, 203 (1987) 142, 501(1987) 143, 647 ( 1 9 8 7 ) 144, K35 (1987) 104, 7 9 9 (1987) 142, K 1 5 5 ( 1 9 8 7 )
103, K99 (1987) 141, K121 (1987) 143, 217 ( 1 9 8 7 )
61.70 and 78.50; S8.11 61.10 and 61.80; S1.2 62.80; SI.2 73.60; S4 62.20; S4 71.70; SI I 78.70; S12 64.75; S5.ll
74.70; S4 71.55 and 85; S7.11 71.55 and 85; S7.ll 61.70 and 64.75; S5 61.70; S7.13 72.20 and 85; S5.ll 73.60; 78.65; S10; S11.2
71.45; S12.1 71.45; S12.1 74.70; S10 74.70; S4 74.70; S10 71.25 and 73.40; S7.12; S7.15 78.20 and 78.65; 71.25; S4 71.25; S4 61.14; S1.2; S8.16
61.60; 61.14; 61.16; S10 7 6 . 5 0 ; 7 5 . 3 0 ; SL.L ; S 1 . 2
61.70; 61.10; S5.11 75.80; S1.62 75.50; S l . l ; S1.2 73.60 and 75.70; S1.2; S1.3 68.45; S7.13 78.30; 63.20; 71.38; S12.1 63.20; S9 75.50; 61.80; 75.30; 75.60; Sl.l 61.40
73.60; 72.40; S 5 . l l ; S6 61.40 a n d 64.70 73.40; 76.30; 79.20; S 5 ; S 5 . 1 1
76.80; S l . l ; S1.2 61.80; 76.80; S l . l ; S1.2 71.70 and 78.40; S i l 71.70; SIL 71.70; S9.16 71.70; S9.12
71.70; S9 75.50; 75.60; Sl.l ; S1.4 74.10; SI 71.55 and 73.40; S5.LL
76.30; 71.70; SIL.1 7 1 . 7 0 ; 6 2 . 2 0 ; 7 6 . 3 0 ; 7 8 . 5 0 ; S I 1.1
Author Index ZHENGMIN SUN A . K . ZHETBAEV G . M . ZHIDOMIROV Y u . I. ZHIRKO SUN ZHI W E N ZHIWEN XIE G . N . ZHIZHIN ZHONGRONG LI BIZHONG ZHOU J. ZHOU Y I - Y A N G ZHOU GUANG-QU ZHU YONG ZHU V . P . ZHUKOV Y u . N . ZHUKOVA V . M . ZHUKOVSKII ZHUN-ZHI JIN O . ZLEP
P . ZIESCHE H . ZIMMERMANN U . ZIMMERMANN S. ZIOLKIEWICZ W . ZNAMIROWSKI M . ZOLI J . - P . ZÖLLNER I. ZÖLOM Y M . ZOR A . V . ZOTOV
XiAN-Wu Z o u E . M . ZUB
G. ZUBAUSKAS A . ¿UKAUSKAS J. ZUKROWSKI J. ZWECK W . ZYCH
see under letter "S" (a) 1 0 1 , 361 (1987) 57 (1987) (a) 9 9 , (b) 1 4 2 , 595 (1987) see under letter "W" see under letter "X" (a) 1 0 1 , 247 (1987) see under letter "L" (a) 1 0 2 , 533 (1987) (a) 1 0 3 , 619 (1987) (b) 1 4 2 , 229(1987) (a) 1 0 2 , 165 (1987) (a) 1 0 4 , 799 (1987) (b) 1 4 3 , 173(1987) 63(1987) (b) 1 4 0 , (a) 1 0 1 , 371 (1987) see under letter "J" (b) 1 4 0 , K41 (1987) (b) 1 4 4 , 767 (1987) (b) 1 4 4 , K7 (1987) (b) 1 3 9 , 467(1987) (b) 1 4 4 , 911 (1987) 7 (b) 1 3 9 , 533 (19N ) (b) 1 4 0 , 163 (1987) (a) 1 0 2 , 153 (1987) (a) 9 9 , 641 (1987) (b) 1 4 2 , 517(1987) (a) 1 0 4 , 667 (1987) (a) 9 9 , 193 (1987) (a) 1 0 0 , 693 (1987) (a) 9 9 , 513 (1987) (a) 1 0 4 , 761(1987) (a) 1 0 3 , 467(1987) 9 (1987) (b) 1 4 2 , (b) 1 3 9 , 365 (1987) (a) 1 0 1 , K55 (1987) (a) 1 0 1 , 445 (1987) (a) 1 0 3 , 285 (1987) (a) 1 0 3 , K93 (1987) (b) 1 4 4 , 203 (1987) (a) 9 9 , ]K.125 (1987)
61.80; 76.80; S U ; S1.2 61.50; S10 71.35 and 78.55; S8 78.20; 61.80; S10.1 61.70 and 78.70; S7.ll 78.55 and 78.65; S8.15 71.70; 76.30; S i l 75.60 and 78.70; S1.2 75.50; 75.60; SI. 1; S1.4 71.25; S1.61 61.80; SI.3 61.70 and 66.30; S10.15 72.20; 73.40 72.90 73.40 71.10 71.10 71.55; 78.55; S8.ll 71.55 and 78.55; 71.38; S8.11 61.80 and 78.70; 62.20; 64.75; Sl.l 77.20 and 77.80; S9.16 72.20; 71.30; S10.1 62.20; S1.2; S4 73.40 ;'S5.11 73.40 and 85 73.60; S12 73.60; S12 68.55; S5.ll 61.25; S4 61.25; S4 75.70; Sl.l 68.48; 79.20; S7.12 78.55; Sil.1 68.55 and 76.80; S10.1 71.20; 72.15; S l . l ; S1.2 75.50; 76.80; Sl.l
International Classification System for Physics*) 60. C o n d e n s e d m a t t e r : structure, mechanical and thermal properties 61. Structure of liquids and solids; crystallography (see also 68.20. Solid surface structure, 71. Electron states) 62. Mechanical and acoustical properties of condensed matter (see also 61.70. Defects in crystals, 68.30. Surfaces and interfaces) 63. Lattice dynamics and crystal statistics (see also 65. T h e r m a l properties, 66.70. T h e r m a l c o n d u c t i o n , 68.30. D y n a m i c s of surface and interface vibrations, 78.30. Infrared and R a m a n spectra) 64. E q u a t i o n s of state, phase equilibria, and phase transitions 65. T h e r m a l properties of condensed matter (see also 63. Lattice dynamics; for t h e r m o d y n a m i c properties of q u a n t u m fluids, see 67.40; for thermal properties of solid helium, see 67.80) 66. T r a n s p o r t properties of condensed matter (nonelectronic) 67. Q u a n t u m fluids and solids; liquid and solid helium 68. Surfaces and interfaces; thin films and whiskers (for impact p h e n o m e n a , see 79; for crystal growth, see 61.50) 70. C o n d e n s e d m a t t e r : electronic structure; electrical, magnetic, and optical properties 71. Electronic states (see also 63. Lattice dynamics, 73. Electronic structure and electrical properties of surfaces, interfaces, a n d thin films) 72. Electronic transport in condensed matter (for surfaces, interfaces, a n d thin films, see 73) 73. Electronic and electrical properties of surfaces, interfaces, and thin films 74. Superconductivity 75. M a g n e t i c properties and materials 76. M a g n e t i c resonances and relaxation in condensed m a t t e r ; M o s s b a u e r effect 77. Dielectric properties and materials (for conductivity p h e n o m e n a , see 72.20 and 72.80) 78. Optical properties and c o n d e n s e d - m a t t e r spectroscopy and other interactions of m a t t e r with particles a n d radiation (for p h o n o n spectra, see 63) 79. Electron and ion emission by liquids and solids; impact p h e n o m e n a 85. Devices**)
*) E x c e r p t ; reproduced with permission of I n t e r n a t i o n a l Council for Scientific and Technical I n f o r m a t i o n (1CSTI). **) Outside the ICSTI Classification f o r Physics. (The Substance Classification is given o n cover three)
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