TY  - BOOK
AU  - Askerov,B.M.
TI  - Electron transport phenomena in semiconductors
SN  - 9810212836
AV  - QC611 .A7813 1994
PY  - 1994///]
CY  - Singapore, River Edge, NJ
PB  - World Scientific
KW  - Semiconductors
KW  - Electron transport
N1  - Translation of: Ėlektronnye i︠a︡vleni︠a︡ perenosa v poluprovodnikakh; Includes bibliographical references; Contents; Foreword; Ch. 1	Energy Spectrum of Charge Carriers in Semiconductors; 1	Electron motion in ideal crystal lattice; 2	Energy bands in solids, Brillouin zones; 3	Energy band edge structure of some semiconductors. The main band models; Ch. 2	Statistics of Charge Carriers in Semiconductors; 4	Electron concentration in conduction band and Fermi level, effective mass as function of concentration; 5	Statistics of charge carriers in intrinsic semiconductors and semimetals; 6	Statistics of charge carriers in extrinsic semiconductors; Ch. 3	Solution of Boltzmann Equation, Scattering Mechanisms; 7	Phenomenological definition of kinetic coefficients and their interrelationship; 8	Boltzmann equation and its applicability conditions; 9	Solution of Boltzmann equation for arbitrary spherically symmetric band in relaxation time approximation; 10	Charge carrier scattering in semiconductors with an arbitrary isotropic band, scattering by impurities; 11	Charge carrier scattering by phonons in semiconductors with arbitrary isotropic band; 12	Theory of charge carrier scattering in semiconductors using Bloch wave functions; Ch. 4	Electron Transport Phenomena in Semiconductors with Isotropic Band; 13	General expressions of main kinetic coefficients; 14	Transport phenomena in absence of magnetic field; 15	Transport phenomena in magnetic field; 16	Transport phenomena in semiconductors of p-Ge type; 17	Charge carrier entrainment by phonons in semiconductors with arbitrary isotropic band; Ch. 5	Transport Phenomena in Semiconductors with Anisotropic Nonparabolic Band, Anisotropic Scattering; 18	Boltzmann equation solution for anisotropic band in relaxation time tensor approximation; 19	Conductivity tensors in semiconductors with anisotropic dispersion relation; 20	Main kinetic effects in cubic semiconductors with anisotropic dispersion relation; Ch. 6	Transport Phenomena in Quantizing Magnetic Fields; 21	Energy spectrum and charge carrier statistics in quantizing magnetic fields; 22	Galvanomagnetic phenomena in quantizing magnetic field; 23	Thermomagnetic phenomena in transverse quantizing magnetic field; Ch. 7	Electron Transport Phenomena in Semiconductive Films. Size-dependent Effects; 24	Boltzmann equation solution for films with taking account of boundary conditions; 25	Transport phenomena in films with arbitrary dispersion relation; 26	Quantum size effects
ER  -