Central Library

Advanced theory of semiconductor devices / (Record no. 59515)

000 -LEADER
fixed length control field 05937nam a2201345 i 4500
001 - CONTROL NUMBER
control field 5265897
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20200421114115.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 100317t20152000nyua ob 001 0 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
ISBN 9780470544105
-- electronic
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
-- print
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
-- electronic
082 04 - CLASSIFICATION NUMBER
Call Number 621.3815/2
100 1# - AUTHOR NAME
Author Hess, Karl,
245 10 - TITLE STATEMENT
Title Advanced theory of semiconductor devices /
300 ## - PHYSICAL DESCRIPTION
Number of Pages 1 PDF (xv, 332 pages) :
505 0# - FORMATTED CONTENTS NOTE
Remark 2 Preface. Acknowledgments. A Brief Review of the Basic Equations. The Symmetry of the Crystal Lattice. The Theory of Energy Bands in Crystals. Imperfections of Ideal Crystal Structure. Equilibrium Statistics for Electrons and Holes. Self-Consistent Potentials and Dielectric Properties. Scattering Theory. The Boltzmann Transport Equation. Generation-Recombination. The Heterojunction Barrier. The Device Equations of Shockley and Stratton. Numerical Device Simulations. Diodes. Laser Diodes. Transistors. Future Semiconductor Devices. Appendix A: Tunneling and the Golden Rule. Appendix B: The One Band Approximation. Appendix C: Temperature Dependence of the Band Structure. Appendix D: Hall Effect and Magnetoresistance. Appendix E: The Power Balance Equation. Appendix F: The Self-Consistent Potential at a Heterojunction. Appendix G: Schottky Barrier Transport. Index. About the Author.
520 ## - SUMMARY, ETC.
Summary, etc Semiconductor devices are ubiquitous in today's world and found increasingly in cars, kitchens, and electronic door looks, attesting to their presence in our daily lives. This comprehensive book brings you the fundamentals of semiconductor device theory from basic quantum physics to computer aided design. Advanced Theory of Semiconductor Devices will help improve your understanding of computer simulation devices through a thorough discussion of basic equations, their validity, and numerical solutions as they are contained in current simulation tools. You will gain state-of-the-art knowledge of devices used in both III-V compounds and silicon technology. Specially featured are novel approaches and explanations of electronic transport, particularly in p-n junction diodes. Close attention is also given to innovative treatments of quantum level laser diodes and hot electron effects in silicon technology. This in-depth book is designed expressly for graduate students, research scientists, and research engineers in solid state electronics who want to gain a better grasp of the principles underlying semiconductor devices.
856 42 - ELECTRONIC LOCATION AND ACCESS
Uniform Resource Identifier http://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5265897
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Koha item type eBooks
264 #1 -
-- New York :
-- IEEE Press,
-- c2000.
264 #2 -
-- [Piscataqay, New Jersey] :
-- IEEE Xplore,
-- [2009]
336 ## -
-- text
-- rdacontent
337 ## -
-- electronic
-- isbdmedia
338 ## -
-- online resource
-- rdacarrier
588 ## -
-- Description based on PDF viewed 12/21/2015.
650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1
-- Semiconductors.
695 ## -
-- Approximation methods
695 ## -
-- Atomic measurements
695 ## -
-- Biographies
695 ## -
-- Boltzmann equation
695 ## -
-- Charge carrier processes
695 ## -
-- Coils
695 ## -
-- Compounds
695 ## -
-- Computational modeling
695 ## -
-- Conductivity
695 ## -
-- Crystals
695 ## -
-- Current density
695 ## -
-- Dielectrics
695 ## -
-- Diode lasers
695 ## -
-- Distribution functions
695 ## -
-- Doping
695 ## -
-- Effective mass
695 ## -
-- Eigenvalues and eigenfunctions
695 ## -
-- Electric fields
695 ## -
-- Electric potential
695 ## -
-- Ellipsoids
695 ## -
-- Energy loss
695 ## -
-- Energy states
695 ## -
-- Equations
695 ## -
-- Finite element methods
695 ## -
-- Force
695 ## -
-- Gallium arsenide
695 ## -
-- Hall effect
695 ## -
-- Heterojunctions
695 ## -
-- Impurities
695 ## -
-- Indexes
695 ## -
-- Junctions
695 ## -
-- Lattices
695 ## -
-- Light sources
695 ## -
-- Magnetic fields
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-- Magnetoresistance
695 ## -
-- Materials
695 ## -
-- Mathematical model
695 ## -
-- Metals
695 ## -
-- Moment methods
695 ## -
-- Nearest neighbor searches
695 ## -
-- P-n junctions
695 ## -
-- Phonons
695 ## -
-- Physics
695 ## -
-- Poisson equations
695 ## -
-- Potential energy
695 ## -
-- Quantum capacitance
695 ## -
-- Quantum mechanics
695 ## -
-- Radiative recombination
695 ## -
-- Regions
695 ## -
-- Resistance
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-- Scattering
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-- Schottky barriers
695 ## -
-- Schottky diodes
695 ## -
-- Schrodinger equation
695 ## -
-- Semiconductor devices
695 ## -
-- Semiconductor process modeling
695 ## -
-- Silicon
695 ## -
-- Solids
695 ## -
-- Spontaneous emission
695 ## -
-- Steady-state
695 ## -
-- Surface contamination
695 ## -
-- Surface emitting lasers
695 ## -
-- Surface reconstruction
695 ## -
-- Taylor series
695 ## -
-- Temperature
695 ## -
-- Temperature dependence
695 ## -
-- Thermionic emission
695 ## -
-- Transistors
695 ## -
-- Tunneling
695 ## -
-- Vibrations
695 ## -
-- Video recording
695 ## -
-- Wave functions

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