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Chapter 6	681

5.34.Zak J, “Dynamics of Electrons in Solids in External Fields,” I, Physical Review, 168(3), 686 (1968); II, Physical Review, 177(3), 1151 (1969). Also “The kqRepresentation in the Dynamics of Metals” Solid State Physics, Advances in Research and Applications 27, 1-62 (1972).

5.35.Ziman JM, Principles of Theory of Solids, 2nd edn., Cambridge, 1972.

5.36.Ziman JM, Electrons in Metals, A Short Guide to the Fermi Surface, Taylor and Francis, London, 1963.

Chapter 6

6.1.Alferov ZI, “Nobel Lecture: The Double Heterostructure Concept and its application in Physics, Electronics, and Technology,” Rev. Modern Phys. 73(3), 767-782 (2001).

6.2.Ashcroft NW and Mermin ND, Solid State Physics, Holt, Rinehart and Winston, New York, 1976, Chapters 28 and 29.

6.3.Bardeen J, “Surface States and Rectification at a Metal-Semiconductor Contact”, Physical Review, 71, 717-727 (1947).

6.4.Blakemore JS, Solid State Physics, Second Edition, W. B. Saunders Co., Philadelphia, 1974.

6.5.Boer KW, Survey of Semiconductor Physics, Electrons and Other Particles in Bulk Semiconductors, Van Nostrand Reinhold, New York, 1990.

6.6.Bube R, Electronics in Solids, Academic Press, Inc., New York, 1992 3rd edn.

6.7.Chen A and Sher A, Semiconductor Alloys, Plenum Press, New York, 1995.

6.8.Cohen ML and Chelikowsky JR, Electronic Structure and Optical Properties of Semiconductors, Springer-Verlag, Berlin, 2nd edn, 1989.

6.9.Conwell E and Weisskopf VF, Physical Review, 77, 388 (1950).

6.10.Dalven R, Introduction to Applied Solid State Physics, Plenum Press, New York, 1980. See also second edition, 1990.

6.11.Dresselhaus G, Kip AF and Kittel C, Phys Rev 98, 368 (1955).

6.12.Einspruch NG, “Ultrasonic Effects in Semiconductors,” Solid State Physics, Advances in Research and Applications 17, 217-268 (1965).

6.13.Fan HY, “Valence Semiconductors, Ge and Si,” Solid State Physics, Advances in Research and Applications 1, 283-265 (1955).

6.14.Fraser DA, The Physics of Semiconductor Devices, Clarendon Press, Oxford, 4th edition, 1986.

6.15.Handler P, “Resource Letter Scr-1 on Semiconductors,” American Journal of Physics, 32 (5), 329 (1964).

6.16.Kane EO, J. Phys. Chem. Solids 1, 249 (1957).

6.17.Kittel C, Introduction to Solid State Physics, Seventh Edition, John Wiley and Sons, New York, 1996, Chap. 8.

6.18.Kohn W, “Shallow Impurity States in Si and Ge,” Solid State Physics, Advances in Research and Applications 5, 257-320 (1957).

6.19.Kroemer H, “Nobel Lecture: Quasielectronic Fields and Band Offsets: Teaching Electrons New Tricks,” Rev. Modern Phys. 73(3), 783-793 (2001).

6.20.Li M-F, “Modern Semiconductor Quantum Physics,” World Scientific, Singapore, 1994.

682 Bibliography

6.21.Long D, Energy Bands in Semiconductors, Interscience Publishers, New York, 1968.

6.22.Ludwig GW and Woodbury HH, “Electron Spin Resonance in Semiconductors,”

Solid State Physics, Advances in Research and Applications 13, 223-304 (1962).

6.23.McKelvey JP, Solid State and Semiconductor Physics, Harper and Row Publishers, New York, 1966.

6.24.Merzbacher E, Quantum Mechanics, 2nd edn., John Wiley & Sons, Inc., New York, 1970, Chap. 2.

6.25.Moss TS (ed), Handbook on Semiconductors, Vol. 1, Landberg PT (ed), North Holland/Elsevier (1992), Amsterdam (There are additional volumes).

6.26.Nakamura S, Pearton S, Fasol G, The Blue Laser Diode: The Complete Story, Springer-Verlag, New York, 2000.

6.27.Ovshinsky SR, “Reversible Electrical Switching Phenomena in Disordered Structures,” Physical Review Letters, 21, 1450 (1968).

6.28.Pankove JI and Moustaka TD (eds), “Gallium Nitride I,” Semiconductors and Semimetals, Vol. 50, Academic Press, New York, 1997.

6.29.Pantiledes ST (editor), Deep Centers in Semiconductors, Gordon and Breach Publishers, Yverdon, Switzerland, 1992.

6.30.Patterson JD, “Narrow Gap Semiconductors,” Condensed Matter News 3 (1), 4-11 (1994).

6.31.Perkowitz S, Optical Charaterization of Semiconductors, Academic Press, San Diego, 1993.

6.32.Ridley BK, Quantum Processes in Semiconductors, Clarendon Press, Oxford, 1988.

6.33.Sapoval B and Hermann C, Physics of Semiconductors, Springer-Verlag, New York, 1995.

6.34.Seeger K, Semiconductor Physics, Springer-Verlag, Berlin, 4th edn, 1989.

6.35.Seitz F, Physical Review, 73, 549 (1948).

6.36.Shockley W, Electrons and Holes in Semiconductors, D. Van Nostrand, New York, 1950.

6.37.Slater JC, Quantum Theory of Molecules and Solids, Vol. III, Insulators, Semiconductors, and Metals, McGraw-Hill Book Company, New York, 1967.

6.38.Smith RA, Wave Mechanics of Crystalline Solids, John Wiley and Sons, 1961, section 8.8 and appendix 1.

6.39.Smith RA (ed), Semiconductors, Proceedings of the International School of Physics, “Enrico Fermi” Course XXII, Academic Press, New York, 1963.

6.40.Streetman BG, Solid State Electronic Devices, 2nd ed. Prentice Hall, Englewood Cliffs, N.J., 1980. Also see the third edition (1990).

6.41.Sze SM, Physics of Semiconductor Devices, 2nd edn, Wiley, New York, 1981.

6.42.Sze SM (ed), Modern Semiconductor Device Physics, John Wiley and Sons, Inc., New York, 1998.

6.43.Willardson RK, and Weber ER, “Gallium Nitride II,” Semiconductors and Semimetals, Vol. 57, Academic Press, 1998.

6.44.Yu PY and Cardona M, Fundamentals of Semiconductors, Springer Verlag, Berlin, 1996.

Chapter 7	683

Chapter 7

7.1.Anderson PW, “Theory of Magnetic Exchange Interactions: Exchange in Insulators and Semiconductors,” Solid State Physics, Advances in Research and Applications,

14, 99-214 (1963).

7.2.Ashcroft NW and Mermin ND, Solid State Physics, Holt, Rinehart and Winston, New York, 1976, Chaps. 31, 32 and 33.

7.3.Auld BA, “Magnetostatic and Magnetoelastic Wave Propagation in Solids”, Applied Solid State Science, Vol. 2, Wolfe R and Kriessman CJ (eds), Academic Press 1971.

7.4.Baibich MN, Broto JM, Fert A, Nguyen Van Dau F, Petroff F, Eitenne P, Creuzet G, Friederich A, and Chazelas J, Phys. Rev. Lett., 61, 2472 (1988).

7.5.Bennett C, “Quantum Information and Computation,” Physics Today, October 1995, pp. 24-30.

7.6.Bertram HN, Theory of Magnetic Recording, Cambridge University Press, 1994, Chap. 2.

7.7.Bitko D et.al., J Research of NIST, 102(2), 207-211 (1997)).

7.8.Blackman JA and Tagüeña J, Disorder in Condensed Matter Physics, A Volume in Honour of Roger Elliott, Clarendon Press, Oxford, 1991.

7.9.Blundell S, Magnetism in Condensed Matter, Oxford University Press, 2001.

7.10.Charap SH and Boyd EL, Physical Review, 133, A811 (1964).

7.11.Chikazumi S, Physics of Ferromagnetism, (Translation editor, Graham CD), Oxford at Clarendon Press, 1977.

7.12.Chowdhury D, Spin Glasses and Other Frustrated Systems, Princeton University Press, 1986.

7.13.Cooper B, “Magnetic Properties of Rare Earth Metals,” Solid State Physics, Advances in Research and Applications, 21, 393-490 (1968).

7.14.Cracknell AP and Vaughn RA, Magnetism in Solids Some Current Topics, Scottish Universities Summer School, 1981.

7.15.Craik D, Magnetism Principles and Applications, John Wiley and Sons, 1995.

7.16.Cullity BD, Introduction to Magnetic Materials, Addison-Wesley, Reading, Mass., 1972.

7.17.Damon R and Eshbach J, J Phys Chem Solids, 19, 308 (1961).

7.18.Dyson FJ, Physical Review, 102, 1217 (1956).

7.19.Elliott RJ, Magnetic Properties of Rare Earth Metals, Plenum Press, London, 1972.

7.20.Fetter AL and Walecka JD, Theoretical Mechanics of Particles and Continua, McGraw-Hill, pp. 399-402, 1980.

7.21.Fisher ME, “The Theory of Equilibrium Critical Phenomena,” Reports on Progress in Physics, XXX(II), 615 (1967).

7.22.Fischer KH and Hertz JA, Spin Glasses, Cambridge University Press, 1991.

7.23.Fontcuberta J, “Colossal Magnetoresistance,” Physics World, February 1999, pp. 33-38.

7.24.Gibbs MRJ (ed), Modern Trends in Magnetostriction Study and Application, Kluwer Academic Publishers, Dordrecht, 2000.

7.25.Gilbert W, De Magnete (originally published in 1600), Translated by P. Fleury Mottelay, Dover, New York (1958).

7.26.Griffiths RB, Physical Review, 136(2), 437 (1964).

684 Bibliography

7.27.Heitler W, Elementary Wave Mechanics, Oxford, 1956, 2nd edn, Chap. IX.

7.28.Heller P, “Experimental Investigations of Critical Phenomena,” Reports on Progress in Physics, XXX(II), 731 (1967).

7.29.Herbst JF, Rev Modern Physics 63(4), 819-898 (1991).

7.30.Herring C, Exhange Interactions among Itinerant Electrons in Magnetism, Rado GT and Suhl H (eds), Academic Press, New York, 1966.

7.31.Herzfield CM and Meijer HE, “Group Theory and Crystal Field Theory,” Solid State Physics, Advances in Research and Applications, 12, 1-91 (1961).

7.32.Huang K, Statistical Mechanics, 2nd edn, John Wiley and Sons, New York, 1987.

7.33.Ibach H and Luth H, Solid State Physics, Springer-Verlag, Berlin, 1991, p 152.

7.34.Julliere M, Phys Lett 54A, 225 (1975).

7.35.Kadanoff LP et al, Reviews of Modern Physics, 39 (2), 395 (1967).

7.36.Kasuya T, Progress in Theoretical Physics (Kyoto), 16, 45 and 58 (1956).

7.37.Keffer F, “Spin Waves,” Encyclopedia of Physics, Vol. XVIII, Part 2, Ferromagnetism, Springer-Verlag, Berlin, 1966.

7.38.Kittel C, “Magnons,” Low Temperature Physics, DeWitt C, Dreyfus B, and deGennes PG (eds), Gordon and Breach, New York, 1962.

7.39.Kittel C, Introduction to Solid State Physics, 7th edn, John Wiley and Sons, New York, 1996, Chapters 14, 15, and 16.

7.40.Kosterlitz JM and Thouless DJ, J Phys C 6, 1181 (1973).

7.41.Kouwenhoven L and Glazman L, Physics World, pp. 33-38, Jan. 2001.

7.42.Langer JS and S. H. Vosko, J Phys Chem Solids 12, 196 (1960).

7.43.Levy RA and Hasegawa R, Amorphous Magnetism II, Plenum Press, New York, 1977.

7.44.Malozemoff AP and Slonczewski JC, Magnetic Domain Walls in Bubble Materials, Academic Press, New York, 1979.

7.45.Manenkov AA and Orbach R (eds), Spin-Lattice Relaxation in Ionic Solids, Harper and Row Publishers, New York, 1966.

7.46.Marshall W (ed), Theory of Magnetism in Transition Metals, Proceedings of the International School of Physics, “Enrico Fermi” Course XXXVII, Academic Press, New York, 1967.

7.47.Mathews J and Walker RL, Mathematical Methods of Physics, W. A. Benjamin, New York, 1967.

7.48.Mattis DC, The Theory of Magnetism I Statics and Dynamics, Springer-Verlag, 1988 and II Thermodynamics and Statistical Mechanics, Springer-Verlag 1985.

7.49.Mermin ND and Wagner H, Physical Review Letters, 17(22), 1133 (1966).

7.50.Muller B and Reinhardt J, Neural Networks, An Introduction, Springer-Verlag, Berlin, 1990.

7.51.Pake GE, “Nuclear Magnetic Resonance,” Solid State Physics, Advances in Research and Applications, 2, 1-91 (1956).

7.52.Parkin S, J App Phys 85, 5828 (1999).

7.53.Patterson JD, Introduction to the Theory of Solid State Physics, Addison-Wesley Publishing Co., Reading MA, 1971 p176ff.

7.54.Patterson JD et al, Journal of Applied Physics, 39 (3), 1629 (1968), and references cited therein.

7.55.Prinz GA, Science Vol. 282, 27 Nov. 1998, p 1660.

Chapter 8	685

7.56.Rado GT and Suhl H (eds), Vol. II Part A, Statistical Models, Magnetic Symmetry, Hyperfine Interactions, and Metals, Academic Press, New York, 1965. Vol. IV,

Exchange Interactions among Itinerant Electrons by Conyers Herring, Academic Press, New York, 1966.

7.57.Ruderman MA and Kittel C, Physical Review, 96, 99 (1954).1

7.58.Salamon MB and Jaime M, “The Physics of Manganites Structure and Transport,”

Rev. Modern Physics, 73, 583-628 (2001).

7.59.Schrieffer JR, “The Kondo Effect−The Link Between Magnetic and NonMagnetic Impurities in Metals?”, Journal of Applied Physics, 38(3), 1143 (1967).

7.60.Slichter CP, Principles of Magnetic Resonance, Harper and Row, Evanston,1963.

7.61.Slonczewski JC, Phys Rev B39, 6995 (1989).

7.62.Tyalblikov SV, Methods in the Quantum Theory of Magnetism, Plenum Press, New York, 1967.

7.63.Van Vleck JH, The Theory of Electric and Magnetic Susceptibilities, Oxford University Press, 1932.

7.64.Von der Lage FC and Bethe HA, Phys Rev 71, 612 (1947).

7.65.Walker LR, Phys Rev 105, 309 (1957).

7.66.Waller I, Z Physik, 79, 370 (1932).

7.67.Weinberg S, The Quantum Theory of Fields, Vol I Modern Applications, Cambridge University Press, 1996, pp. 332-352.

7.68.White RM, Quantum Theory of Magnetism, McGraw Hill, New York, 1970.

7.69.Wohlfarth EP, Magnetism Vol. III, Rado GT and Suhl H, (eds), Academic Press, New York, 1963. Wohlfarth EP, Rev Mod Phys. 25, 211 (1953). Wohlfarth EP, Handbook of Magnetic Materials, Elsevier, several volumes (~1993).

7.70.Wojtowicz PJ, Journal of Applied Physics, 35, 991 (1964).

7.71.Yosida K, Physical Review, 106, 893 (1957).1

7.72.Yosida K, Theory of Magnetism, Springer, Berlin, 1998.

7.73.Zutic I et al, “Spintronics: Fundamentals and applications,” Rev Mod Phys 76, 325 (2004).

Chapter 8

8.1.Allen PB and Mitrovic B, “Theory of Superconductivity Tc,” Solid State Physics, Advances in Research and Applications, 37, 2-92 (1982).

8.2.Anderson PW, “The Josephson Effect and Quantum Coherence Measurements in Superconductors and Superfluids,” Progress in Low Temperature Physics, Vol. V, Gorter CJ (ed), North-Holland Publishing Company, Amsterdam, 1967, p. 1. See also Annett JF, Superconductivity, Superfluids, and Condensates, Oxford University Press, 2004.

8.3.Annett JF, Superconductivity, Superfluids, and Condensates, Oxford University Press, 2004.

1These papers deal with the indirect interaction of nuclei by their interaction with the conduction electrons and of the related indirect interaction of ions with atomic magnetic moments by their interaction with the conduction electrons. In the first case the hyperfine interaction is important and in the second the exchange interaction is important.

686 Bibliography

8.4.Bardeen J, “Superconductivity,” 1962 Cargese Lectures in Theoretical Physics, Levy M (ed), W. A. Benjamin, New York, 1963.

8.5.Bardeen J and Schrieffer JR, “Recent Developments in Superconductivity,” Progress in Low Temperature Physics, Vol. III, Gorter CJ (ed), North-Holland Publishing Company, Amsterdam, 1961, p. 170.

8.6.Bardeen J, Cooper LN, and Schreiffer JR, “Theory of Superconductivity,” Phys Rev 108, 1175-1204 (1957).

8.7.Beyers R and Shaw TM, “The Structure of Y1Ba2Cu3O7-δ and its Derivatives,”

Solid State Physics, Advances in Research and Applications, 42, 135-212 (1989).

8.8.Bogoliubov NN (ed), The Theory of Superconductivity, Gordon and Breoch, New York, 1962.

8.9.Burns G, High Temperature Superconductivity an Introduction, Academic Press, Inc., Boston, 1992.

8.10.Cooper L, “Bound Electron Pairs in a Degenerate Fermi Gas,” Phys Rev 104, 11871190 (1956).

8.11.Dalven R, Introduction to Applied Solid State Physics, Plenum Press, New York, 1990, 2nd edn, Ch. 8.

8.12.deGennes PG, Superconductivity of Metals and Alloys, W. A. Benjamin, New York, 1966.

8.13.Feynman RP, Leighton RB, and Sands M, The Feynman Lectures on Physics, Vol. III, Addison-Wesley Publishing Co., 1965.

8.14.Giaever I, “Electron Tunneling and Superconductivity,” Rev Modern Phys, 46(2), 245-250 (1974).

8.15.Goodman BB, “Type II Superconductors,” Reports on Progress in Physics, Vol. XXIX, Part 11, The Institute of Physics and The Physical Society, London, 1966, p. 445.

8.16.Hass KC, “Electronics Structure of Copper-Oxide Superconductors,” Solid State Physics, Advances in Research and Applications, 42, 213-270 (1989).

8.17.Jones W and March NH, Theoretical Solid State Physics, Vol. 2, Dover, 1985, p895ff and p1151ff.

8.18.Josephson B, “The Discovery of Tunneling Supercurrents,” Rev Modern Phys, 46(2), 251-254 (1974).

8.19.Kittel C, [60], Chap. 8.

8.20.Kuper CG, An Introduction to the Theory of Superconductivity, Clarendon Press, Oxford, 1968.

8.21.Mahan G, Many-Particle Physics, Plenum Press, New York, 1981, Ch. 9.

8.22.Marder, Condensed Matter Physics, John Wiley and Sons, 2000, p. 819.

8.23.Mattuck RD, A Guide to Feynman Diagrams in the Many-Body Problem, 2nd edn, Dover, New York, 1992, Chap. 15.

8.24.Parker WH, Taylor BN and Langenberg DN, Physical Review Letters, 18 (8), 287 (1967).

8.25.Parks RD (ed), Superconductivity, Vols. 1 and 2, Marcel Dekker, New York, 1969.

8.26.Rickaysen G, Theory of Superconductivity, Interscience, New York, 1965.

8.27.Saint-James D, Thomas EJ, and Sarma G, Type II Superconductivity, Pergamon, Oxford, 1969.

8.28.Scalapino DJ, “The Theory of Josephson Tunneling,” Tunneling Phenomena in Solids, Burstein E and Lundquist S (eds), Plenum Press, New York, 1969.

Chapter 9	687

8.29.Schafroth MR, “Theoretical Aspects of Superconductivity,” Solid State Physics, Advances in Research and Applications, 10, 293-498 (1960).

8.30.Schrieffer JR, Theory of Superconductivity, W. A. Benjamin, New York, 1964.

8.31.Silver AH and Zimmerman JE, Phys Rev 157, 317 (1967).

8.32.Tinkham M, Introduction to Superconductivity, McGraw-Hill, New York, 2nd edn, 1996.

8.33.Tinkham M and Lobb CJ, “Physical Properties of the New Superconductors,” Solid State Physics, Advances in Research and Applications, 42, 91-134 (1989).

Chapter 9

9.1.Bauer S, Gerhard-Multhaupt R, and Sessler GM, “Ferroelectrets: Soft Electroactive Foams for Transducers,” Physics Today 57, 39-43 (Feb. 2004).

9.2.Böttcher CJF, Theory of Electric Polarization, Elsevier Publishing Company, New York, 1952.

9.3.Brown WF Jr, “Dielectrics,” Encyclopedia of Physics, Vol. XVII, Flügge S (ed), Springer-Verlag, Berlin, 1956.

9.4.Devonshire AF, “Some Recent Work on Ferroelectrics,” Reports on Progress in Physics, Vol. XXVII, The Institute of Physics and The Physical Society, London, 1964, p. 1.

9.5.Elliot RJ and Gibson AF, An Introduction to Solid State Physics and its Applications, Harper and Row 1974 p277ff.

9.6.Fatuzzo E and Merz WJ, Ferroelectricity, John Wiley and Sons, New York, 1967.

9.7.Forsbergh PW Jr., “Piezoelectricity, Electrostriction, and Ferroelectricity,” Encyclopedia of Physics, Vol. XVII, Flügge S (ed), Springer Verlag, Berlin, 1956.

9.8.Fröhlich H, Theory of Dielectrics—Dielectric Constant and Dielectric Loss, Oxford University Press, New York, 1949.

9.9.Gutmann F, Rev Modern Phys 70, 457 (1948).

9.10.Jona F and Shirane G, Ferroelectric Crystals, Pergamon Press, New York, 1962.

9.11.Kanzig W, “Ferroelectrics and Antiferroelectrics,” Solid State Physics, Advances in Research and Applications 4, 1-97 (1957).

9.12.Lines ME and Glass AM, Principles and Applications of Ferroelectrics and Related Materials, Oxford, 1977.

9.13.Moss TS, Optical Properties of Semi-Conductors, Butterworth and Company Pubs., London, 1959.

9.14.Pines D, “Electron Interaction in Metals,” Solid State Physics, Advances in Research and Applications 1, 373-450 (1955).

9.15.Platzman PM and Wolff PA, Waves and Interactions in Solid State Plasmas, Academic Press, New York, 1973, Chaps. VI and VII.

9.16.Smyth CP, Dielectric Behavior and Structure, McGraw-Hill Book Company, New York, 1955.

9.17.Samara GA and Peercy PS, “The Study of Soft-Mode Transitions at High Pressure,” Solid State Physics, Advances in Research and Applications 36, 1-118 (1981).

9.18.Steele MC and Vural B, Wave Interactions in Solid State Plasmas, McGraw-Hill Book Company, New York, 1969.

688 Bibliography

9.19.Tonks L and Langmuir I, Phys Rev 33, 195-210 (1929).

9.20.Uehling EA, “Theories of Ferroelectricity in KH2P04,” in Lectures in Theoretical Physics, Vol. V, Briton WE, Downs BW, and Downs J (eds), Interscience Publishers, New York, 1963.

9.21.Zheludev IS, “Ferroelectricity and Symmetry,” Solid State Physics, Advances in Research and Applications 26, 429-464 (1971).

Chapter 10

10.1.Born M and Wolf E, Principles of Optics, 2nd (Revised) edn, MacMillan, 1964, especially Optics of Metal (Chap. XIII) and Optics of Crystals (Chap. XIV).

10.2.Born M and Huang K, Dynamical Theory of Crystal Lattices, Oxford at the Clarenden Press, 1954, see especially the optical effects (Chap. VII).

10.3.Brown FC, “Ultraviolet Spectroscopy of Solids with the Use of Synchrotron Radiation,” Solid State Physics, Advances in Research and Applications 29, 1-73 (1974).

10.4.Bube RH, Photoconductivity of Solids, John Wiley and Sons, New York, 1960.

10.5.Caldwell DJ, “Some Observations of the Faraday Effect,” Proc Natl Acad Sci 56, 1391-1398 (1966).

10.6.Callaway J, “Optical Absorption in an Electric-Field,” Physical Review, 130(2), 549 (1963).

10.7.Cochran W, The Dynamics of Atoms in Crystals, Edward Arnold, London, 1973, p 90.

10.8.Cohen MH, Phil Mag 3, 762 (1958)

10.9.Cohen ML and Chelikowsky JR, Electronic Structure and Optical Properties of Semiconductors, 2nd edn, Springer-Verlag, Berlin, 1989.

10.10.Dexter DL, “Theory of the Optical Properties of Imperfections in Nonmetals,”

Solid State Physics, Advances in Research and Applications 6, 353-411 (1958).

10.11.Elliott RJ and Gibson AF, An Introduction to Solid State Physics, Macmillan, 1974, Chap. 6, 7.

10.12.Fox M, Optical Properties of Solids, Oxford University Press, 2002.

10.13.Frova A, Handler P, Germano FA, and Aspnes DE, “Electro-Absorption Effects at the Band Edges of Silicon and Germanium,” Physical Review, 145(2), 575 (1966).

10.14.Givens MP, “Optical Properties of Metals,” Solid State Physics, Advances in Research and Applications 6, 313-352 (1958).

10.15.Gobeli GW and Fan HY, Phys Rev 119(2), 613-620, (1960).

10.16.Greenaway DL and Harbeke G, Optical Properties and Band Structures of Semiconductors, Pergamon Press, Oxford, 1968.

10.17.Hagen E and Rubens H, Ann. d. Physik (4) 11, 873 (1903).

10.18.Kane EO, J Phys Chem Solids 12, 181 (1959).

10.19.Knox RS, “Theory of Excitons,” Solid State Physics, Advances in Research and Applications, Supplement 5, 1963.

10.20.Lyddane RH, Sachs RG, and Teller E, Phys Rev 59, 673 (1941).

10.21.Moss TS, Optical Properties of Semiconductors, Butterworth, London, 1961.

10.22.Pankove JL, Optical Processes in Semiconductors, Dover, New York, 1975.

Chapter 11	689

10.23.Phillips JC, “The Fundamental Optical Spectra of Solids,” Solid State Physics, Advances in Research and Applications 18, 55-164 (1966).

10.24.Stern F, “Elementary Theory of the Optical Properties of Solids,” Solid State Physics, Advances in Research and Applications 15, 299-408 (1963).

10.25.Tauc J (ed), The Optical Properties of Solids, Proceedings of the International School of Physics, “Enrico Fermi” Course XXXIV, Academic Press, New York, 1966.

10.26.Tauc J, The Optical Properties of Semiconductors, Academic Press, New York, 1966.

10.27.Yu PY and Cordona M, Fundamentals of Semiconductors, Springer-Verlag, Berlin, 1996, chapters 6,7,8.

Chapter 11

11.1.Bastard G, Wave Mechanics Applied to Semiconductor Heterostructures, Halsted (1988)

11.2.Borg RJ and Dienes GJ, An Introduction to Solid State Diffusion, Academic Press, San Diego, 1988.

11.3.Bube RH, “Imperfection Ionization Energies in CdS-Type Materials by Photoelectronic Techniques,” Solid State Physics: Advances in Research and Applications 11, 223-260 (1960).

11.4.Chelikowsky JR and Louie SG, Quantum Theory of Real Materials, Kluwer Academic Publishers, Dordrecht, 1996.

11.5.Compton WD and Rabin H, “F-Aggregate Centers in Alkali Halide Crystals,” Solid State Physics: Advances in Research and Applications 16, 121-226 (1964).

11.6.Cottrell AH, Dislocations and Plastic Flow in Crystals, Oxford University Press, New York, 1953.

11.7.Crawford JH Jr. and Slifkin LM, Point Defects in Solids, Vol. 1 General and Ionic Crystals, Vol. 2 Defects in Semiconductors, Plenum Press, New York, Vol. 1 (1972), Vol. 2 (1975).

11.8.Davison SG and Steslicka M, Basic Theory of Surface States, Clarendon Press, Oxford, 1992, p. 155.

11.9.deWit R, “The Continuum Theory of Stationary Dislocations,” Solid State Physics: Advances in Research and Applications 10, 249-292 (1960).

11.10.Dexter DL, “Theory of Optical Properties of Imperfections in Nonmetals,” Solid State Physics: Advances in Research and Applications 6, 353-411 (1958).

11.11.Eshelby JD, “The Continuum Theory of Lattice Defects,” Solid State Physics: Advances in Research and Applications 3, 79-144 (1956).

11.12.Fowler WB (ed), Physics of Color Centers, Academic Press, New York, 1968.

11.13.Gilman JJ and Johnston WG, “Dislocations in Lithium Fluoride Crystals,” Solid State Physics: Advances in Research and Applications 13, 147-222 (1962).

11.14.Gundry PM and Tompkins FC, “Surface Potentials,” in Experimental Methods of Catalysis Research, Anderson RB (ed), Academic Press, New York, 1968, pp. 100168.

690 Bibliography

11.15.Gourary BS and Adrian FJ, “Wave Functions for Electron-Excess Color Centers in Alkali Halide Crystals,” Solid State Physics: Advances in Research and Applications 10, 127-247 (1960).

11.16.Henderson B, Defects in Crystalline Solids, Crane, Russak and Company, Inc., New York, 1972.

11.17.Kohn W, “Shallow Impurity States in Silicon and Germanium,” Solid State Physics: Advances in Research and Applications 5, 257-320 (1957).

11.18.Kröger FA and Vink HJ, “Relations between the Concentrations of Imperfections in Crystalline Solids,” Solid State Physics: Advances in Research and Applications

3, 307-435 (1956).

11.19.Lehoczky SL et al, NASA CR-101598, “Advanced Methods for Preparation and Characterization of Infrared Detector Materials, Part I,” July 5, 1981.

11.20.Li W and Patterson JD, “Deep Defects in Narrow-Gap Semiconductors,” Phys Rev 50, 14903-14910 (1994).

11.21.Li W and Patterson JD, “Electronic and Formation Energies for Deep Defects in Narrow-Gap Semiconductors,” Phys Rev 53, 15622-15630 (1996), and references cited therein.

11.22.Luttinger JM and Kohn W, “Motion of Electrons and Holes in Perturbed Periodic Fields,” Phys Rev 99, 869-883 (1955).

11.23.Madelung O, Introduction to Solid-State Theory, Springer-Verlag, Berlin (1978), Chaps. 2 and 9.

11.24.Markham JJ, “F-Centers in the Alkali Halides,” Solid State Physics: Advances in Research and Applications, Supplement 8 (1966).

11.25.Mitin V, Kochelap VA, and Stroscio MA, Quantum Heterostructures, Cambridge University Press, 1999.

11.26.Pantelides ST, Deep Centers in Semiconductors, 2nd edn, Gordon and Breach, Yverdon, Switzerland, (1992).

11.27.Sarid D, Exploring Scanning Probe Microscopy with Mathematica, John Wiley and Sons, Inc., 1997, Chap. 11.

11.28.Schulman JH and Compton WD, Color Centers in Solids, The Macmillan Company, New York, 1962.

11.29.Seitz F and Koehler JS, “Displacement of Atoms During Irradiation,” Solid State Physics: Advances in Research and Applications 2, 305-448 (1956).

11.30.Stoneham HM, Theory of Defects in Solids, Oxford, 1973.

11.31.Wallis RF (ed), Localized Excitations in Solids, Plenum Press, New York, 1968.

11.32.West AR, Solid State Chemistry and its Applications, John Wiley and Sons, New York, 1984.

11.33.Zanquill A, Physics at Surfaces, Cambridge University Press, 1988, p. 293.

Chapter 12

12.1.Barnham K and Vvendensky D, Low Dimensional Semiconductor Structures, Cambridge University Press, Cambridge, 2001.

12.2.Bastard G, Wave Mechanics Applied to Semiconductor Heterostructures, Halsted Press, New York, 1988.

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