Abstract
Modulated structures arise in materials in two basic ways. One way is through the natural inclination of the material to suffer a periodic modulation of its basic structure. An example of this would be the spectrum of thermal fluctuations or phonons in crystals. Other examples include long-period superlattices and spinodal decomposition in crystalline or amorphous solids, where the latter, to be observed, must be present in a metastable (however durable) condition. The second way in which modulated structure materials are obtained is through our intervention— i.e., artificially. Examples of these are the semiconductor superlattices and the synthetic multilayer metallic structures.
Issues which commonly appear in understanding these materials include: a) coherence vs. incoherence of the (lattice) structure being modulated; b) comensurate vs. incommensurate modulation. This often represents a competition between the driving force for the modulation and the response or relaxation of the structure being modulated; c) the influence of defects; d) the origin of the modulation in the basic thermodynamics or electronic structure of the materials, and e) conversely, the influence of the induced, or naturally occurring, modulation on the properties. Selected examples of these issues will be discussed.
Keywords
- Bragg Peak
- Antiphase Domain
- Transition Metal Dichalcogenides
- Semiconductor Superlattices
- Satellite Reflection
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
Cowley, J.M., J.B. Cohen, M.B. Salomon and B.J. Wuensch, eds., Modulated Structures — 1979, AIP Conference Proceedings, No. 53, American Institute of Physics, N.Y. (1979).
James, R.W., The Optical Principles of the Diffraction of Xrays, London, Bell (1948).
Wilson, J.A., F.J. DiSalvo and S. Mahajan, Adv. in Physics 24, 117(1965).
Iizumi, M., J.D. Axe, G. Shirane and K. Shimaoka, Phys. Rev. B15, 4392 (1977).
Fisher, M.E., and W. Selke, Phys. Rev. Lett. 44, 1502 (1980); W. Selke, these proceedings.
de Wolff, P.M., Acta Cryst. A33, 493 (1977). A. Janner, T. Janssen and P.M. de Wolff, in Modulated Structures — 1979, AIP Conference Proceedings No. 53, J.M. Cowley, J.B. Cohen, M.B. Salomon and B.J. Wuensch, eds., American Institute of Physics, N.Y. (1979), p. 81.
de Wolff, P.M., these proceedings.
Sato, H. and R.S. Toth, Phys. Rev. 127, 469 (1962).
Fujiwara K., J. Phys. Soc Japan 12, 7 (1957).
Terasaki O., J. Phys. Soc. Japan 51, 2159 (1982).
McMillian, W.L., Phys. Rev. B14, 1496 (1976).
Guymont, M., D. Gratias and R. Portier, in Modulated Structures — 1979, AIP Conference Proceedings, No. 53, J.M. Cowley, J.B. Cohen, M.B. Salomon and B.J. Wuensch, eds., American Institute of Physics, N.Y. (1979), p. 44.
Hickman, B.S., J. Mater. Sci. 4, 554 (1969).
Axe, J.D., D.T. Keating and S.C. Moss, Phys. Rev. Lett. 35, 530 (1975).
Ho, K.-M., C.L. Fu, B.N. Harmon, W. Weber and D.R. Hamann, Phys. Rev. Lett. 49 673 (1982).
Axe, J.D. and G. Shirane, Phys. Rev. B8, 1965 (1973).
Gossard, A.C., “Molecular Beam Epitaxy of Superlattices and Thin Films,” in Thin Films: Preparation and Properties, K.N. Tu and R. Rosenberg, eds. Academic Press, New York (1982).
McWhan, D.B., “Structure of Chemically Modulated Films,” in Synthetic Modulated Structure Materials, L.L. Chang and B.C. Giessen eds., Academic Press, New York (in press).
Hilliard, J.E. in Modulated Structures — 1979, AIP Conference Proceedings, No. 53, J.M. Cowley, J.B. Cohen, M.B. Salomon and B.J. Wuensch, eds., American Institute of Physics, N.Y. (1979), p. 407.
Segmuller, A., and A.E. Blakeslee, J. Appl. Cryst. 6 19 (1973); 6, 413 (1973).
Schuller, I.K., Phys. Rev. Lett. 44, 1597 (1980).
Lowe, W., T. Barbee, T.H. Geballe and D.B. McWhan, Phys. Rev., B24, 6193 (1981).
Osbourn, G.C., R.M. Biefeld and P.L. Gourley, Appl. Phys. Lett. 41, 172 (1982); G.C. Osbourn, J. Vac. Sci. Technol. B1 379 (1983).
Tsakalakos, T., and J.E. Hilliard, J. Appl. Phys. 54, 734 (1983).
Willens, R.H., these proceedings.
Clapp, P.C., these proceedings.
Tsakalakos, T., Thin Solid Films 86, 79 (1981).
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© 1984 Martinus Nijhoff Publishers, Dordrecht
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Moss, S.C. (1984). Modulated Structure Materials: A Selected Review. In: Tsakalakos, T. (eds) Modulated Structure Materials. Nato ASI Series, vol 83. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-6195-1_1
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