Fundamentals of Semiconductors: Physics and Materials PropertiesSpringer Science & Business Media, 7 apr. 2010 - 778 sidor Since the appearance of our book, Fundamentals of Semiconductors: Physics and Materials Properties, one of the questions we are asked most frequently is this: “is there a solution manual to this book?” In preparing the questions at the end of each chapter we have already tried to guide the readers to derive the answers by themselves using a step-by-step approach. Clearly this strategy did not work for everyone. We recognize that many of the questions in this book are quite challenging and often require reading of research papers to solve them. In response to readers demand we have - cided to provide solutions to some of the problems in this new edition. Since working through problems is an important and necessary part of the learning process in physics we will not give the solutions to all the problems. Instead, we hope to use the solutions to a number of selected problems in each ch- ter as an additional study help to the readers. We like to use these solutions to provide more in depth discussions to topics which may be too specialized for a typical course on semiconductor physics. By leaving enough unsolved problems and adding a few new ones there are still plenty of opportunities for both the instructors to choose problems for assignments and for students to test their understanding of the text. |
Innehåll
2 | |
17 | |
3 Vibrational Properties of Semiconductorsand ElectronPhonon Interactions | 107 |
4 Electronic Properties of Defects | 159 |
5 Electrical Transport | 203 |
6 Optical Properties I | 243 |
7 Optical Properties II | 345 |
8 Photoelectron Spectroscopy | 427 |
9 Effect of Quantum Confinement on Electronsand Phonons in Semiconductors | 469 |
Pioneers of Semiconductor Physics Remember | 552 |
Solutions to Some of the Problems | 583 |
Recent Development | 673 |
Recent Developments and References | 686 |
References1 | 719 |
754 | |
Andra upplagor - Visa alla
Fundamentals of Semiconductors: Physics and Materials Properties Peter YU,Manuel Cardona Ingen förhandsgranskning - 2010 |
Fundamentals of Semiconductors: Physics and Materials Properties Peter Y. Yu,Manuel Cardona Ingen förhandsgranskning - 2016 |
Vanliga ord och fraser
absorption acoustic applied approximation assume atoms axis band structure becomes bond Brillouin calculated carriers characters charge components conduction band consider constant corresponding crystal curves defects defined density dependence determined diamond direction discussed dispersion donor effect electric electron emission energy equal equation example excited exciton experimental expression field frequency GaAs given Hence hole impurity interaction involves known lattice layer levels light mass measured method modes Note obtained operations optical optical phonons orbitals peaks phonon Phys Physics polarization potential Problem properties quantum quantum mechanics Raman referred reflection representations represented resonant respectively result rotation sample scattering Sect semiconductors solid solutions space group spectra splitting strain structure surface symmetry Table temperature tensor theory tion transitions unit valence band values vector wave functions wavevector zone