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Dislocation Core Properties in Bulk and Layered Materials

Published online by Cambridge University Press:  28 February 2011

M.S. Duesbery ,
B. Grossmann  and
B. Joo
M.S. Duesbery
Affiliation:
Geocenters, Inc., 10903 Indian Head Highway, Fort Washington, MD 20744
B. Grossmann
Affiliation:
Ottawa-Carleton Institute for Physics, University of Ottawa Campus, Ottawa, Ontario, Canada K1N 9B4
B. Joo
Affiliation:
Ottawa-Carleton Institute for Physics, University of Ottawa Campus, Ottawa, Ontario, Canada K1N 9B4
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Abstract

The dislocation core is now recognised as a major contributor to many physical properties in bulk materials, for example the plasticity of metals. Less well known is that the dislocation core can be similarly important in two-dimensional (2D) systems such as surface films. Core properties in bulk materials are reviewed briefly, with emphasis on the diversity of behavior and on unifying concepts. Dislocation cores in 2D matter are considered in more detail, with particular reference to the role of the dislocation core in the melting transition.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 141: Symposium T – Atomic Scale Calculations in Materials Science , 1988 , 303
Copyright
Copyright © Materials Research Society 1989

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References

1. Peierls, R., Proc. Phys. Soc. Lond. 52, 34 (1940).Google Scholar
2. Huntingdon, H.B., Phys. Rev. 59, 942 (1941).Google Scholar
3. Christian, J.W., 1982 Campbell Memorial Lecture, Met. Trans. 14A, 123 (1983).Google Scholar
4. Kubin, L.P., Rev. Def. Behav. Mater. 1, 24 (1976); 4, 181 (1982).Google Scholar
5. Vitek, V., Proc. Intl. Symp. Dislocations and the Properties of Real Materials, London, 1984, (Physical Society, London, 1985) p30.Google Scholar
6. Duesbery, M.S., Dislocations in Solids, edited by Nabarro, F.R.N., vol. 8, (North Holland, New York, 1989) in the press.Google Scholar
7. Veyssiere, P., Revue de Physique Applique, 23, 431 (1988).Google Scholar
8. Nabarro, F.R.N., Theory of Crystal Dislcoations, (Clarendon Press, Oxford,1967).Google Scholar
9. Taylor, G.I., Proc. R. Soc. Lond. A145, 388 (1934).Google Scholar
10. Alexander, H., Proc. Intl. Conf. Dislocations 1984, Aussois, 1984, edited by Veyssiere, P., Kubin, L. and Castaing, J., (CNRS, Paris, 1984), p2183.Google Scholar
11. Takeuchi, S. and Maeda, K., Proc. Intl. Conf. Dislocations 1984, Aussois, 1984, edited by Veyssiere, P., Kubin, L. and Castaing, J., (CNRS, Paris, 1984), p331.Google Scholar
12. Alexander, H., Dislocations in Solids, edited by Nabarro, F.R.N., vol. 7, (North Holland, New York, 1986), p115.Google Scholar
13. Puls, M.F. and Woo, C.H., Proc. Intl. Conf. Dislocations 1984, Aussois, 1984, edited by Veyssiere, P., Kubin, L. and Castaing, J., (CNRS, Paris, 1984), p 93.Google Scholar
14. Frenkel, J. and Kontorova, T., Phys. Z. Sowj. Un. 13, 1 (1938).Google Scholar
15. Nabarro, F.R.N., Proc. Phys. Soc. Lond. 59, 256 (1947).CrossRefGoogle Scholar
16. Heidenreich, R.D. and Shockley, W., Rep. on Conf. Strength of Solids, Bristol, 1947, (Physical Society, London, 1947) p. 57.Google Scholar
17. Vitek, V., Phil. Mag. 18, 73 (1968).Google Scholar
18. Vitek, V., Crystal Lattice Defects 5, 1 (1974).Google Scholar
19. Duesbery, M.S., Vitek, V. and Bowen, D.K., Proc. R. Soc. Lond. A332, 85 (1973).Google Scholar
20. Hirsch, P.B., Fifth Int. Conf. on Crystallography, Cambridge (oral communication) (1960) p139.Google Scholar
21. Vitek, V., Perrin, R.C. and Bowen, D.K., Phil. Mag. 21, 1049 (1970).Google Scholar
22. Basinski, Z.S., Duesbery, M.S. and Taylor, R., Phil. Mag. 21, 1201 (1970).Google Scholar
23. Basinski, Z.S., Duesbery, M.S. and Taylor, R., Can. J. Phys. 49, 2160 (1971).Google Scholar
24. Friedel, J., Phil. Mag. A45, 271 (1982).Google Scholar
25. Yamaguchi, M., Paidar, V., Pope, D.P. and Vitek, V., Phil. Mag. A45, 867 (1982).Google Scholar
26. Paidar, V., Yamaguchi, M., Pope, D.P. and Vitek, V., Phil. Mag. A45, 883 (1982).Google Scholar
27. Yamaguchi, M.,Vitek, V. and Pope, D.P., Phil. Mag. A43, 1027 (1981).Google Scholar
28. Suzuki, K., Ichikara, M. and Takeuchi, S., Acta Met. 27, 193 (1979).Google Scholar
29. Kear, B.H. and Wilsdorf, H.G.F., Trans. TMS-AIME 224, 382 (1962).Google Scholar
30. Frank, F.C. and Nicholas, J.F., Phil. Mag. 44, 1213 (1953).Google Scholar
31. Stohr, J.F. and Poirier, J.P., Phil. Mag. 25, 1313 (1972).Google Scholar
32. Vitek, V., Proc. Intl. Conf. Deformation - All Aspects, Ranchi, 1983, Trans. Indian Inst. Metals 38, 510 (1985).Google Scholar
33. Duesbery, M.S. and Vitek, V., Proc. U.S. -Japan Seminar Mechanical Properties of BCC Metals, Honolulu, 1981, edited by Meshii, M., (AIME press, Warrendale, 1982) p 3.Google Scholar
34. Regnier, P. and Dupouy, J.M., Phys. Stat. Sol. 39, 79 (1970).Google Scholar
35. Bacon, D.J. and Martin, J.W., Phil. Mag. L43, 883 (1981); A43, 901 (1981).CrossRefGoogle Scholar
36. Bacon, D.J. and Liang, M.H., Proc. Symp. Interatomic Potentials and Crystalline Defects, Pittsburgh, 1980, edited by Lee, J.K. (AIME press, Warrendale, 1980) pl8l.Google Scholar
37. Bacon, D.J., Proc. Symp. Structure and Properties of Crystal Defects, Liblice, 1983, edited by Paidar, V. and Lejcek, L. (Elsevier, New York, 1984) p102.Google Scholar
38. Bacon, D.J. and Liang, M.H., Phil. Mag. 53, 163 (1986); 53, 181 (1986); 53, 205 (1986).Google Scholar
39. Pope, D.P. and Ezz, S.S., Int. Metals Reviews 29, 136 (1984).Google Scholar
40. Mulford, R.A. and Pope, D.P., Acta Met. 21, 1375 (1973).Google Scholar
41. Kawabata, T., Kanai, T. and Izumu, O., Acta Met. 33, 1355 (1985).Google Scholar
42. Hug, G., Loiseau, A. and Veyssiere, P., J. Electron Micr. Suppl. 35, 1575 (1986).Google Scholar
43. Vanderschaeve, G. and Escaig, B., J. Phys. Paris 39, L74 (1978).Google Scholar
44. Vanderschaeve, G. and Escaig, B., Phil. Mag. A48, 265 (1983).Google Scholar
45. Vanderschaeve, G., Proc. Symp. Structure and Properties of Crystal Defects, Liblice, 1983, edited by Paidar, V. and Lejcek, L., (Elsevier, New York, 1984) p.53.Google Scholar
46. Takeuchi, S. and Kuramoto, E., Met. Trans. 3, 3037 (1972).Google Scholar
47. Takeuchi, S. and Kuramoto, E., Acta Met. 22, 429 (1974).Google Scholar
48. Yamaguchi, M., Proc. U.S.-Japan Seminar Mechanical Properties of BCC Metals, Honolulu, 1981, edited by Meshii, M., (AIME press, Warrendale, 1982) p. 31.Google Scholar
49. Yamaguchi, M. and Umakoshi, Y., Proc. Symp. Structure and Properties of Crystal Defects, Liblice, 1983, edited by Paidar, V. and Lejcek, L., (Elsevier, New York, 1984) p. 131.Google Scholar
50. Umakoshi, Y., Yamaguchi, M., Namba, Y. and Murakami, K., Acta Met. 24, 89 (1976).CrossRefGoogle Scholar
51. Umakoshi, Y. and Yamaguchi, M., Scripta Met. 11, 211 (1977).Google Scholar
52. Yamaguchi, M. and Umakoshi, Y., Phys. Stat. Sol. a43, 667 (1977).CrossRefGoogle Scholar
53. Takeuchi, S., Phil. Mag. 41, 541 (1980).CrossRefGoogle Scholar
54. Saka, H. and Zhu, Y.M., Phil. Mag. A51, 629 (1985).Google Scholar
55. Beauchamp, P. and Rabier, J., Proc. Intl. Conf. Dislocations 1984, Aussois, 1984, edited by Veyssiere, P., Kubin, L. and Castaing, J., (CNRS, Paris, 1984), p.111.Google Scholar
56. Rabier, J. and Garem, H., Materials Science Research vol. 18, Deformation of Ceramic Materials II, edited by Tressler, R.E. and Bradt, R.C., (Plenum Press, New York, 1984) p. 187.Google Scholar
57. Donlon, W.T., Mitchell, T.E. and Heuer, A.H., Phil. Mag. A40, 351 (1979).Google Scholar
58. Mitchell, T.E., Donlon, W.T., Lagerdof, K.P.D. and Heuer, A.H., Materials Science Research vol. 18, Deformation of Ceramic Materials II, edited by Tressler, R.E. and Bradt, R.C., (Plenum Press, New York, 1984) p. 125.Google Scholar
59. Veyssiere, P., Rabier, J., Garem, H. and Grilhe, J., Phil. Mag. 33, 143 (1976).CrossRefGoogle Scholar
60. Phillips, D.P., Mitchell, T.E. and Heuer, A.H., Phil. Mag. A45, 371 (1982).Google Scholar
61. Phillips, D.P. and Cadoz, J., Phil. Mag. A46, 583 (1982).Google Scholar
62. Rabier, J., Veyssiere, P. and Garem, H., Phil. Mag. A44, 1363 (1981).Google Scholar
63. Rabier, J., Veyssiere, P., Garem, H. and Grilhe, J., Phil. Mag. A39, 693 (1979).Google Scholar
64. Gaboriaud, R.J., Phil. Mag. A44, 561 (1981).Google Scholar
65. Veyssiere, P., Kirby, S.H. and Rabier, J., J. Phys. (Paris) A4, C6 (1980).Google Scholar
66. Kirby, S.H. and Veyssiere, P., Phil. Mag. A41, 129 (1980).Google Scholar
67. Castaing, J., Cadoz, J. and Kirby, S.H., J. Phys. (Paris) 42, C3 (1981).Google Scholar
68. Shockley, W., Phys. Rev. 91, 228 (1953).Google Scholar
69. Marklund, S., Phys. Stat. Sol. b92, 83 (1979); bl00, 77 (1980).Google Scholar
70. Jones, R., Phil. Mag. 35, 57 (1977); 36, 677 (1977).Google Scholar
71. Jones, R., J. Phys. (Paris) 40, C633 (1979).Google Scholar
72. Doukhan, J.C. and Escaig, B., Phys. Stat. Sol. a7, 441 (1971).Google Scholar
73. Crampon, J., Farvacque, J.L., Doukhan, J.C. and Escaig, B., Phys. Stat. Sol. a24, 167 (1974).Google Scholar
74. DiPersio, J., Doukhan, J.C. and Saada, G., J. Phys. Paris 28, 661 (1967).Google Scholar
75. Poirier, J.-P., J. Geophysical Res. 80, 4059 (1975).Google Scholar
76. Poirier, J.-P. and Vergobbi, B., Physics of the Earth and Planetary Interiors 16, 370 (1978).Google Scholar
77. Poirier, J.-P., Physics of Defects, edited by Kleman, M., (North Holland, New York, 1981) 617.Google Scholar
78. Persio, J. Di and Escaig, B., Phys. Stat. Sol. 40, 393 (1977).Google Scholar
79. Persio, J. Di and Escaig, B., J. Phys. (Paris) 39, C268 (1978).Google Scholar
80. Persio, J. Di and Escaig, B., Proc. Intl. Conf. Dislocations 1984, Aussois, 1984, edited by Veyssiere, P., Kubin, L. and Castaing, J., (CNRS, Paris, 1984), p267.Google Scholar
81. Suzuki, H., J. Phys. Soc. Japan 35, 1472 (1973); 42, 1865 (1977).Google Scholar
82. Tsymbalenko, V.L., Pis'ma Zh. Eksp. Teor. Fiz. 23, 709 (1976) [JETP Letters, 23, 653 (1977)].Google Scholar
83. Sanders, D.J., Kwun, H., Hikata, A. and Elbaum, C., Phys. Rev. Letters 39, 815 (1977).Google Scholar
84. Sanders, D.J., Kwun, H., Hikata, A. and Elbaum, C., Phys. Rev. Letters 40, 458 (1978).Google Scholar
85. Sakai, A., Nishioka, Y. and Suzuki, H., J. Phys. Soc. Japan 46, 881 (1979).Google Scholar
86. Manning, M.B., Moelter, M.J. and Elbaum, C., Phys. Rev. B33, 1634 (1986).Google Scholar
87. Kosterlitz, J.M. and Thouless, D.J., J. Phus. C 5, L124 (1972); 6, 1181 (1973).Google Scholar
88. Halperin, B.I. and Nelson, D.R., Phys. Rev. Lett. 41, 121 (1978); 41. 519 (1978).Google Scholar
89. Young, A.P., Phys. Rev. B19, 1855 (1979).Google Scholar
90. Berezinskii, V.L., Zh. Eksp. Teor. Fiz. 59, 907 (1970); 61, 1144 (1971) [Sov. Phys. JETP 32, 493 (1971); 34, 610 (1972)].Google Scholar
91. Nelson, D.R. and Halperin, B.I., Phys. Rev. B19, 2457 (1979).Google Scholar
92. Heiney, P.A., Birgeneau, R.J., Brown, G.S., Horn, P.M., Moncton, D.E. and Stephens, P.W., Phys. Rev. Lett. 48, 104 (1982).Google Scholar
93. Heiney, P.A., Stephens, P.W., Birgeneau, R.J., Horn, P.M. and Moncton, D.E., Phys. Rev. B28, 6416 (1983).Google Scholar
94. Rosenbaum, T.F., Nagler, S.E., Horn, P.M. and Clarke, R., Phys. Rev. Lett. 50, 1791 (1983).CrossRefGoogle Scholar
95. Dimon, P., Horn, P.M., Sutton, M., Birgeneau, R.J. and Moncton, D.E., Phys. Rev. B31, 437 (1985).Google Scholar
96. Butler, D.M., Litzinger, J.A. and Stewart, G.A., Phys. Rev. Lett. 44, 466 (1980).Google Scholar
97. Abraham, F.F., Phys. Rep. 80, 339 (1981).Google Scholar
98. Strandburg, K.J., Rev. Mod. Phys. 60, 161 (1988).Google Scholar
99. Joos, B. and Duesbery, M.S., Phys. Rev. Lett. 55, 1997 (1985); Phys. Rev. B33, 8632 (1986).Google Scholar
100. Duesbery, M.S. and Joos, B., Phil. Mag. L54, 145 (1986); A54, 165 (1986).Google Scholar
101. Grossmann, B., Joos, B. and Duesbery, M.S., Phys. Rev. B (1988) in press.Google Scholar
102. Frank, F.C. and Merwe, J.H. van der, Proc. R. Soc. Lond. A198, 216 (1949).Google Scholar
103. Matthews, J.W., Dislocations in Solids, edited by Nabarro, F.R.N., vol. 2, (North Holland, New York, 1979), p461.Google Scholar