Semiconductor Physics: Principles, Theory and Nanoscale 9780198759867, 019875986X

This text brings together traditional solid-state approaches from the 20th century with developments of the early part o

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Table of contents :
Title_Pages
Dedication
Dedication (1)
Acknowledgments
Introduction_to_the_series
Introduction
Hamiltonians_and_solution_techniques
Entropy_information_and_energy
Waves_and_particles_in_the_crystal
Bandstructures
Semiconductor_surfaces
Semiconductor_interfaces_and_junctions
Point_perturbations
Transport_and_evolution_of_classical_and_quantum_ensembles
Scatteringconstrained_dynamics
Major_scattering_processes
Particle_generation_and_recombination
Light_interactions_with_semiconductors
Causality_and_Greens_functions
Quantum_to_macroscale_and_linear_response
Onsager_relationships
Noise
Stress_and_strain_effects
High_permittivity_dielectrics
Remote_processes
Quantum_confinement_and_monolayer_semiconductors
A_Integral_transform_theorems
B_Various_useful_functions
C_Random_processes
D_Calculus_of_variation_and_the_Lagrangian_method
E_A_thermodynamics_primer
F_MaxwellBoltzmann_distribution_function
G_Spin_and_spin_matrices
H_Density_of_states
I_Oscillator_strength
J_Effective_mass_tensor
K_A_and_B_coefficients_and_spontaneous_and_stimulated_emission
L_Helmholtz_theorem_and_vector_splitting
M_Mode_coupling_and_Purcell_effect
N_Vector_and_scalar_potentials
O_Analyticity_KramersKronig_and_Hilbert_transforms
P_Particle_velocities
Glossary
Index

Semiconductor Physics: Principles, Theory and Nanoscale
 9780198759867, 019875986X

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