Abstract
This chapter is concerned with the influence of lattice defects on dielectric and optical properties of solids. It is an extension of the ideas presented in Volume 1, Chapter 4, which dealt with structure and composition in relation to properties. To a large measure it is restricted to a discussion of topics of current research interest to the sohd-state chemist. In this regard heavy emphasis is placed upon nonhnear optical materials. Since ferroelectric crystals show enhanced nonlinear effects and are the most useful for preseat-day applications, we shall discuss them almost exclusively.
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References
C. Kittel, Introduction to Solid State Physics, Wiley, 3rd ed., New York (1968).
M. E. Lines, Phys. Rev. III, 797 (1969); 2B, 690 (1970); 2B, 698 (1970); 5B, 3690 (1972).
J. F. Nye, Physical Properties of Crystals, Oxford University Press (1960).
W. G. Cady, Piezoelectricity, Dover, New York (1964).
F. Jona and G. Shirane, Ferroelectric Crystals, Macmillan, New York (1962).
W. Känzig, Solid State Phys. 4, 1 (1957).
H. S. van Klooster, J. Chem. Ed. 36, 314 (1959).
B. T. Matthias, in Ferroelectricity (E. Weiler, ed.), p. 176, Elsevier, New York (1967)
R. H. Lyddane, R. G. Sachs, and E. Teller, Phys. Rev. 59, 673 (1941)
A. S. Barker, Jr., Phys. Rev. 136A, 1290 (1964)
W. Cochran, Z. Krist. 112, 465 (1959).
W. K. H. Panofsky and M. Phillips, Classical Electricity and Magnetism, pp. 29–35, Addison-Wesley, Reading, Mass. (1955).
U.S. Triebwasser, IBM J. Res. and Dev. 2, 212 (1958).
W. D. Johnston, jr., and I. P. Kaminow, Phys. Rev. 168, 1045 (1968).
N. Boccara and G. Sarma, Physics 1, 219 (1965)
E. Pytte and J. Feder, Phys. Rev. 187, 1077 (1969).
J. Feder and E. Pytte, Phys. Rev. IB, 4803 (1970).
M. Bom and K. Huang, Dynamical Theory of Crystal Lattices, Clarendon Press, Oxford (1954).
J. G. Bergman, Jr., Private communication.
F. A. Cotton and G. Wilkinson, Advanced Inorganic Chemistry, p. 103, Interscience, New York (1966)
G. E. Peterson and P. M. Bridenbaugh, J. Chem. Phys. 48, 3402 (1968)
G. E. Peterson, J. R. Carruthers, and A. Camevale, J. Chem. Phys. 53, 2436 (1970).
J. Fox, Submillimeter Waves, pp. 251–294, Polytechnic Press, New York (1970)
A. G. Chynoweth, J. Appl. Phys. 27, 78 (1956).
A. M. Glass, J. Appl. Phys. 40, 4699 (1969).
A. M. Glass and D. H. Auston, Optics Comm. 5, 45 (1972).
A. M. Glass, Appl. Phys. Letters 13, 147 (1968).
D. H. Auston, A. M. Glass, and A. A. Ballman, Phys. Rev. Letters 28, 897 (1972).
M. H. Francombe, Acta Cryst. 13, 131 (1960)
I. G. Ismailzade, Kristallografiya 5, 268 (1960)
P. B. Jamieson, S. C. Abrahams, and J. L. Bernstein, J Chem. Phys. 48, 5048 (1968).
J. R. Carruthers and M. Grasso, J. Electro. Chem. Soc. 117, 1426 (1970).
A. M. Glass and R. L. Abrams, J. Appl. Phys. 41, 4455 (1970).
P. J. Lock, Appl. Phys. Letters, 19, 390 (1971).
S. Hoshino, Y. Okaya, and R. Pepinsky, Phys. Rev. 115, 323 (1959).
E. T. Keve, K. L. Bye, P. W. Whipps, and A. D. Annis, Ferroelectrics 3, 39 (1971).
D. H. Auston and A. M. Glass, Appl Phys. Letters 20, 398 (1972).
J. D. Roberts and M. C. CaserĂo, Basic Principles of Organic Chemistry, pp. 1088–1092, Benjamin, New York (1965).
J. H. McFee, J. G. Bergman, Jr., and G. R. Crane, Ferroelectrics 3, 305 (1972).
J. B. Lando, H. G. Olf, and A. Peterlin, J. Polymer Sci 4, 941 (1966) (Part A-1).
A. M. Glass, J. H. McFee, and J. G. Bergman, Jr., J. Appl Phys. 42, 5219 (1971).
J. A. Giordmaine, Sci. Am. 1964 (June).
R. W. Terhune, International Sci Tech. 1964 (August).
J. R. Carruthers, in Encyclopedia of Chemical Technology, p. 623, Wiley, New York (1971).
P. A. Franken, A. E. Hill, C. W. Peters, and G. Weinreich, Phys. Rev. Letters 7, 118 (1961).
J. A. Giordmaine, Phys. Rev. Letters 8, 19 (1962)
P. D. Maker, R. W. Terhune, M. Nisenoff, and C. M. Savage, Phys. Rev. Letters 8, 21 (1962).
R. C. Miller, G. D. Boyd, and A. Savage, Appl Phys. Letters 6, 77 (1965).
J. A. Giordmaine, Phys. Rev. Letters 8, 19 (1962).
J. E. Midwinter and J. Warner, Brit. J. Appl Phys. 16, 1135 (1965).
M. V. Hoben, J. Appl Phys. 38, 4365 (1967).
R. W. Dixon, IEEE Trans, on Electron Devices 3, 229 (1970).
D. A. Kleinman, Phys. Rev. 126, 1977 (1962).
A. Ashkin, G. D. Boyd, J. M. Dziedzic, R. G. Smith, A. A. Ballman, H. J. Levinstein, and K. Nassau, Appl Phys. Letters 9, 72 (1966).
R. L. Byer, J. F. Young, and R. S. Feigelson, J. Appl Phys. 41, 2320 (1970).
F. R. Nash, G. D. Boyd, M. Sargent, and P. M. Bridenbaugh, J. Appl Phys. 41, 2564(1970).
S. E. Harris, Proc. IEEE 51, 2096 (1969).
G. D. Boyd and A. Ashkin, Phys. Rev. 146, 187 (1966).
A. M. Glass, G. E. Peterson, and T. J. Negran, pp. 15–26 inProceedings of the ASTM. NBS Symposium on Damage in Imer Materials (1972).
R. L. Townsend and J. T. LaMacchia, J. Appl Phys. 41, 5188 (1970).
F. S. Chen, J. T. LaMacchia, and D. B. Fraser, Appl Phys. Letters 13, 223 (1968).
S. C. Abrahams, H. J. Levinstein, and J. M. Reddy, J. Phys. Chem. Solids 11, 1019 (1966)
S. C. Abrahams, J. M. Reddy, and J. L. Bernstein, J. Phys. Chem. Solids 27, 997 (1966)
S. C. Abrahams, W. C. Hamilton, and A. Sequeira, J. Phys. Chem. Solids 11, 1693 (1967).
A. A. Balhnan, J. Am. Cer. Soc. 48, 112 (1965).
K. Nassau, in Ferroelectricity, p. 268, Elsevier, Amsterdam (1967).
G. E. Peterson and J. R. Carruthers, J. Solid State Chem. 1, 98 (1969).
J. G. Bergman, A. Ashkin, A. A. Ballman, J. M. Dziedzic, H. J. Levinstein, and R. G. Smith, Appl Phys. Letters 12, 92 (1968).
P. Lemer, C. Legras, and J. P. Dumas, J. Cryst. Growth 3/4, 231 (1968).
N. B. Hannay, Solid State Chemistry, pp. 202–207, Prentice-Hall, Englewood Cliffs, New Jersey (1967).
G. E. Peterson and P. M. Bridenbaugh, unpublished.
J. R. Carruthers, G. E. Peterson, M. Grasso, and P. M. Bridenbaugh, J. Appl Phys. 41, 1846 (1971).
P. M. Bridenbaugh, J. R. Carruthers, J. M. Dziedzic, and F. R. Nash, Appl Phys. Letters 17, 104 (1970).
A. Ashkin, G. D. Boyd, J. M. Dziedzic, R. G. Smith, A. A. Ballman, H. J. Levinstein, and K. Nassau, Appi Phys. Letters 9, 72 (1966).
G. E. Peterson, A. A. Ballman, P. V. Lenzo, and P. M. Bridenbaugh, Appl. Phys. Letters 5, 62(1964).
G. E. Peterson, A. M. Glass, and T. J. Negran, Appl. Phys. Letters 19, 130 (1971).
F. S. Chen, J. Appl. Phys. 40, 3389 (1969)
W. D. Johnston, J. Appi. Phys. 41, 3279 (1970).
W. A. Bonner, W. H. Grodkiewicz, and L. G. Van Uitert, Cryst. Growth 1, 318 (1967).
J. J. Amodei, W. Phillips, and D. L. Staebler, Appl. Optics 11, 390 (1972).
P. M. Bridenbaugh, submitted to J. Crystal Growth.
D. P. Schinke and R. G. Smith, submitted to J. Appl. Phys.
A. A. Ballman, H. J. Levinstein, C. D. Capio, and H. Brown, J. Am. Ceram. Soc. 50, 657 (1967).
G. E. Peterson and P. M. Bridenbaugh, J. Chem. Phys. 48, 3402 (1968).
J. G. Bergman, Jr. and J. P. Maita, Private communication.
A. W. Warner, M. Onoe, and G. A. Coquin, J. Acoust. Soc. Am. 42, 1223 (1967).
O. L. Anderson, J. Phys. Chem. Solids 24, 909 (1963).
S. C. Abrahams, J. M. Reddy, and H. J. Levinstein, J. Phys. Chem. Solids 27, 997 (1966).
S. C. Abrahams and J. L. Bernstein, J. Phys. Chem. Solids 28, 1685 (1967).
G. E. Peterson, J. R. Carruthers, and A. Camevale, J. Chem. Phys. 53, 2436 (1970)
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Peterson, G.E. (1975). The Imperfect Solid—Dielectric Properties. In: Hannay, N.B. (eds) Defects in Solids. Treatise on Solid State Chemistry. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-0829-4_3
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