Introduction to Defects in Solids

  • J. Corish
Part of the NATO ASI Series book series (NSSB)

Abstract

It is a truism that the more we learn about anything the more complex that subject becomes. This is especially true of our understanding of the exact arrangement of atoms or ions which make up solid materials.The rapid development and improvement of the techniques by which defects solids are detected and characterized, and which form the subject matter of this book, have necessitated constant revision of our concepts of perfect and defective solids. It is, for example, no longer adequate to confine our attention to isolated point defects without also considering their aggregation to form more complex defect centres and eventually even separate phases, their relationship with non-stoichiometry and their interactions with each other and with the linear and planar defects with which they co-exist. Similarly, the precise structural information now available for many materials reveals that non-stoichiometric phases may exist as modulated structures in which the composition may vary in a continuous fashion to yield commensurate, semi-commensurate and incommensur-ate structures. The presence of shear planes also changes the composit-ion of non-stoichiometric phases.

Keywords

Electron Spin Resonance Point Defect Colour Centre Dislocation Line Ionic Crystal 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Allnatt, A.R.,and Jacobs, P.W.M., 1961, Proc. Roy. Soc. A260, 350.Google Scholar
  2. Allnatt, A.R., and Loftus, E., 1973a, J. Chem. Phys., 59, 2541.Google Scholar
  3. Allnatt, A.R., and Loftus E., 1973b, J. Chem. Phys., 59, 2550.Google Scholar
  4. Allnatt, A.R., and Yuen, P.S., 1975e, J. Phys.C., 8, 2199.Google Scholar
  5. Allnatt, A.R., and Yuen, Y.S., 1975b, J. Phys. C., 8, 2213.Google Scholar
  6. Atkinson, A., and Taylor, R.I., 1981, Phil. Mag. A43, 979.CrossRefGoogle Scholar
  7. Bendall, P.J., Catlow, C.R.A., Corish, J., and Jacobs, P.W.M., 1984, J. Solid State Chem., 51, 159.ADSCrossRefGoogle Scholar
  8. Burgers, J.M., 1939, Proc. Koninkl. Ned. Akad. Wetenschap., 42, 293, ibid. 42, 399.Google Scholar
  9. Card, D.N., and Jacobs, P.W.M., 1977, Mol. Phys., 34, 1.ADSCrossRefGoogle Scholar
  10. Catlow, C.R.A., Chadwick, A.V., Greaves, G.N., and Moroneb,L.M .,1984, Nature, 312, 601.Google Scholar
  11. Catlow, C.R.A., Chadwick, A.V., and Corish, J. 1983, J. Solid State Chem., 48, 65.ADSCrossRefGoogle Scholar
  12. Catlow, C.R.A., 1983, ‘Mass Transport in Solids’, eds., F. Beniere and C.R.A. Catlow, (Plenum Press: New York), Ch. 16Google Scholar
  13. Catlow, C.R.A., Corish, J., Jacobs, P.W.M., and Lidiard, A.B., 1981, J. Phys. C., 14, L121.Google Scholar
  14. Catlow, C.R.A., Diller, K.M., Norgett, M.J., Corish, J., Parker, B.M.C., and Jacobs, P.W.M., 1978, Phys. Rev. B, 18, 2739.Google Scholar
  15. Chadwick, A.V., and Clyde, H.R., 1977, ‘Rare Gas Solids’, Vol. 2, eds,,M.L. Klein and J.A. Tenables ( Academic: New York) Ch. 19.Google Scholar
  16. Chadwick, A.V., 1983, ‘Mass Transport in Solids’, eds., F. Beniere and C.R.A. Catlow, (Plenum Press: New York ), Ch. 11.Google Scholar
  17. Chadwick, A.V., 1983, Radiation Effects, 74, 17.CrossRefGoogle Scholar
  18. Colbourne, E.A., Mackrodt, W.C., an asker, P.W., 1983, J. Mat. Sci, 17, 1917.Google Scholar
  19. Coyish, J., Catlow, C.R.A., Jacobs, P.W.M., and Ong, S.H., 1982, Phys. Rev. B, 6425.Google Scholar
  20. Corish, J., Quigley, J.M., Jacobs, P.W.M., and Catlow, C.R.A., 1981, Phil. Mag. A44, 13.CrossRefGoogle Scholar
  21. Corish, J., and Mulcahy, D.C.A., 1980, J. Phys. C,, 13, 6459.Google Scholar
  22. Corish, J., and Jacobs, P.W.M., 1975, Phys. Status Solidi (b), 67, 263.ADSCrossRefGoogle Scholar
  23. Cormack, A.N., Tasker, P.W., Jones, R., and Catlow, C.R.A., 1982, J. Solid State Chem., 44, 174.ADSCrossRefGoogle Scholar
  24. Dawson, R,K., and Pooley, D., 1969, Phys. Status solidi, 35, 95, Devlin, B.A., 1982, Ph.D. Thesis, Nat. Univ. of Ireland.Google Scholar
  25. Duffy, D.M., and Tasker, P.W., 1985, ‘Advances in Ceramics’, eds. W.D. Kingery, (Amer. Ceram. Soc.;Columbus), Vol. 10, p. 275.Google Scholar
  26. Duffy, D.M., and Tasker, P.W., 1984a, Phil. Mag., A50, 143.CrossRefGoogle Scholar
  27. Duffy, D.M., and Tasker, P.W., 1984b, Phil. Mag. A, 50, 155.Google Scholar
  28. Duffy, D.M., Hoare, J.P., and Tasker, P.W., 1984,J. Phys. C., 17, L195, Frank, F.C., 1949, Proc. Phys. Soc., A62, 131.Google Scholar
  29. Fujita, F.E., 1977, ‘Progress in the Study of Point Defects’, eds, M. Doyama and S. Yoshida, ( University of Tokyo Press: Tokyo ) p. 71.Google Scholar
  30. Gillan, M.J., 1981, Phil. Mag. A43, 301.CrossRefGoogle Scholar
  31. Gâiman, J.J., and Johnson, W.G., 1962, ‘Solid State Physics’, 13, 147, ( Academic Press: New York ).Google Scholar
  32. Harding, J.H., 1985, Phys. Rev. (in press) also A.E.R.E. Harwell Report TP.1113.Google Scholar
  33. Heeger, A.J., and MacDiarmid, A.G., ‘The Physics and Chemistry of Low Dimensional Solids’, Ed. L. Alacer (Reidel:Dordrecht). p.353.Google Scholar
  34. Henderson, B., 1972, ‘Defects in Crystalline Solids’, (Arnold:London). Henderson, B., and Wertz, J.E., 1977, ‘Defects in the Alkaline Earth Oxides’, ( Taylor and Francis: London).Google Scholar
  35. Hooten,I.E.,and Jacobs,P.W.M.,1983,Radiation Effects73, 233.CrossRefGoogle Scholar
  36. Howard, R.E., and Lidiard, A.B., 1964, Reports Frog. Phys., 27, 161.ADSCrossRefGoogle Scholar
  37. Hull., D., 1965, ‘Introduction to Dislocations’, ( Pergammon: Oxford).Google Scholar
  38. Kimura, H., 1977, ‘Progress in the Study of Point Defects’, eds.,M. Doyama and S. Yoshida, (University of Tokyo Press: Tokyo),p,119.Google Scholar
  39. Kitaigorodski, A.I., 1973, ‘Molecular Crystals and Molecules’, ( Academic Press: New York).Google Scholar
  40. Koehler, J.S., 1952, Phys. Rev. 86, 52.ADSCrossRefGoogle Scholar
  41. Kroger, F.A., and Vink, I.J., 1956, Solid State Physics, 3, 307.CrossRefGoogle Scholar
  42. Lebreton, C., and Hobbs, L.W., 1983, Radiation Effects, 74, 227Google Scholar
  43. Lidiard, A.B.,1954,Phys. Rev.,94,29.ADSCrossRefGoogle Scholar
  44. Lidiard, A.B., 1957, ‘Handbuch der Physik’, Vola 20, ( Springer-Verlag: Berlin ), p. 264.Google Scholar
  45. Mackrodt, W.C., and Stewart, J., 1977, J. Phys. C., 10, 1431Google Scholar
  46. Magill, J., Long, K.A., Brooks, M.S., and Ohse, R.W., 1980, Proc, 4th Int.Conf. Solid Surfaces 3rd European Conf. Surface Sci., eds., D.A.Degras and M. Costa.Google Scholar
  47. Mott., N.F., and Gurney, R.W., 1948, ‘Electronic Processes in Ionic Crystals’, 2nd edn. ( OUP: Oxford), Ch. I I.Google Scholar
  48. Orowan, E., 1954, ‘Dislocations in Metals’, ( A.I.M.E.: New York ), p. 69.Google Scholar
  49. Read, W.T., Jr., 1953, ‘Dislocations in Crystals’, ( McGraw-Hill: New York).MATHGoogle Scholar
  50. Seeger, A., 1957, ‘Dislocations and Mechanical Properties of Crystals’,(Wiley: New York), p.243.Google Scholar
  51. Simmons, R.O., 1962, Proc. of Int. School of Physics ‘Enrico Fermi’, eds.,D.S. Billington, XVIII Course, (Academic Press: New York ), p. 568.Google Scholar
  52. Sonder, E., and Sibley, W.A., 1972, ‘Defects in Crystalline Solids’,eds., J.H. Crawford, Jr., and L.M. Slifkin, ( Plenum Press: New York).Google Scholar
  53. Sørensen, O.T., 1983, ‘Mass Transport in Solids’, eds, F. Bénière and C.R.A. Catlow, (Plenum Press: New York ), Ch. 15.Google Scholar
  54. Stoneham, A.M., 1975, ‘Theory of Defects in Solids’, ( Clarendon Press: Oxford).Google Scholar
  55. Suzuki, K., 1955, J. Phys. Soc. Japan, 10, 794; 1958, Ibid, 13, 179; 1961, Ibid. 16, 67.Google Scholar
  56. Tasker, P.W., 1978, AERE Harwell Report, R-9130.Google Scholar
  57. Tasker, P.W., 1979, Phil. Mag., A39, 119.CrossRefGoogle Scholar
  58. Tasker, P.W., 1983, ‘Mass Transport in Solids’, eds., F. B Bénière and C.R.A. Catlow, ( Plenum Press: New York).Google Scholar
  59. Tomlinson, S.M., Catlow, C.R.A., and Harding, J.H., 1984, Harwell Report TP1095.Google Scholar
  60. Vogel, F.L., Pfann, W.G., Corey, H.E,, and Thomas, E.E.., 1953, Phys. Rev. 90, 489.ADSCrossRefGoogle Scholar
  61. Walker, J.R., and Catlow, C.R.A., 1981, J. Phys. C., 14, L979.Google Scholar

Copyright information

© Springer Science+Business Media New York 1986

Authors and Affiliations

  • J. Corish
    • 1
  1. 1.Chemistry DepartmentTrinity CollegeDublin 2Ireland

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