Source: http://www-spires.fnal.gov/spires/find/books/www?keyword=Solid+state+electronics
Timestamp: 2019-04-22 22:06:57+00:00

Document:
and Origin of Atomic Ordering in Group III-V Antimonide Semiconductor Alloys -- 1. Introduction -- 2. Atomic Ordering in Group III-V Antimonide Semiconductors Alloys -- 3. Origins of Atomic Ordering in Semiconductor Alloys -- 4.
Alloys -- Reference -- 11. The Physics of Tunable Disorder in Semiconductor Alloys -- 1. Introduction -- 2. Ordering Induced Band Gap Reduction and Valence Band Splitting -- 3. Ordering Induced Optical Anisotropy or Polarization -- 4.
under High Pressure and High Magnetic Field -- 1. Introduction -- 2. Background -- 3. Sample Preparation and Characterization -- 4. Experimental Details -- 5. Experimental Results -- 6. Discussion -- 7. Conclusions -- References -- 13.
Polarization Effects in the (Electro)absorption of Ordered GaInP and Their Device Applications -- 1. Introduction -- 2. Ordering Induced Effects on the Optical Transitions in GaInP -- 3. Polarization dependent Electro-Absorption -- 4.
Factor -- 5. Electric Field Gradient -- 6. Coupling of Ordering with Strain -- 7. Optical Anistropy in Ordered Alloys -- 8. Spin Polarization in Ordered Alloys -- 9. Effects of Stacking Faults -- 10. Summary -- References -- 16.
2.1 The model of a solid at low temperatures -- 2.2 Phonon modes and propagation -- 2.3 Thermal properties -- 2.4 Lattice anharmonicity -- 2.5 Scattering of photons -- 2.6 Solid helium—a quantum solid -- 2.7 Phonons and disorder -- 3.
Electrons -- 3.1 Electrons in solids -- 3.2 Studies of Fermi surfaces -- 3.3 Transport properties of metals -- 3.4 Scattering of electrons in metals -- 3.5 Semiconductors and localization -- 3.6 Low-dimensional electron systems -- 4.
solutions -- 6.1 Influence of Fermi-Dirac statistics -- 6.2 Properties of normal liquid 3He -- 6.3 The Landau theory of liquid 3He -- 6.4 Superfluid phases of 3He -- 6.5 Liquid 3He-4He solutions -- 6.6 Other fermion fluids -- 7.
Compound Semiconductors -- 7.1 Key Concepts in Semiconductor Surface Chemistry -- 7.2 Zincblende (110) Surfaces -- 7.3 Wurtzite Cleavage Surfaces -- 7.4 Adsorption on Zincblende (110) Surfaces -- 7.5 Synopsis -- References -- 8.
Contents: 2. List of the Surveyed Periodicals -- 3. Special References -- 4. Books, Treatises, and Proceedings of Conferences -- 5. Structure and Cross-Section Determinations 2983 -- 6. Quasi-Elastic and Inelastic Scattering Studies 2356 -- 7A.
Systems: Theory 67 -- 11B. Dynamics of Magnetic Systems: Neutron—Magnon Interaction 54 -- 11C. Dynamics of Magnetic Systems: Paramagnetic Scattering 62 -- 12A. Polarized Neutrons: Theory and Applications 46 -- 12B.
Polarization/Depolarization Effects and Measurements 76 -- 13. Critical Scattering 73 -- 14A. Static and Dynamic Structure of Fluids 69 -- 14B. Neutron Scattering by Fluids 137 -- 15. Neutron Scattering by Molecular Systems 64 -- 16.
Diffractometers/Spectrometers 74 -- 22B. General Instrumentation: Automation and Electronics 57 -- 22C. General Instrumentation: Auxiliary Equipment 76 -- 23. Research Programmes and Facilities at Various Laboratories 81 -- 24.
Planar Diode -- §4. Transient Processes without a Limiting Resistance in the Diode Circuit -- §5. Switching of a Diode Circuit with a Limiting Resistance -- §6. Switching of a Diode Circuit with an Infinite Resistance -- §7.
Internal Field in a Diode Base -- §18. Forward-Biased Diode with a Built-in Field -- §19. First (Recovery) Phase -- §20. Reverse Current Decay -- VI. Transient Processes in Diodes During the Passage of a Forward Current Pulse -- §21.

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