10. Appendix
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720 References<br />
tions II. Misfitting monolayers and oriented overgrowth, Proc. Royal Society<br />
A198, 216–225 (1949); One-dimensional dislocations III. Influence of the second<br />
harmonic term in the potential representation on the properties of the<br />
model, Proc. Royal Society A200, 125–134 (1949)<br />
1.15 See, for example, D. Bimberg, M. Grundmann, and N. N. Lebentsov: Growth,<br />
Spectroscopy, and Laser Application of Self-ordered III-V Quantum Dots.<br />
Bulletin of the Materials Research Society, 23, 31 (1998)<br />
1.16 J. Bohm, A. Lüdge, W. Schröder: Crystal Growth by Floating Zone Melting,<br />
in Handbook of Crystal Growth, Vol. 2 ed. by D. T. H. Hurle (North-Holland,<br />
Amsterdam, 1994) p. 213–258<br />
General Reading<br />
Bernard, J.C., M. Sugawara (ed.): Self-Assembled in GaAs/GaAs Quantum Dots. Volume<br />
60 of Semiconductors and Semimetals (Academic Press, New York, 1999)<br />
Bimberg, D., M. Grundmann and N. Ledentsov: Quantum Dot Heterostructures<br />
(John Wiley & Son, New York, 1999)<br />
Chernov A. A.: Modern Crystallography III – Crystal Growth, Springer Ser. Solid-<br />
State Sci., Vol. 36 (Springer, Berlin, Heidelberg 1984)<br />
Gilman J. J. (ed.): The Art and Science of Growing Crystals (Wiley, New York 1963)<br />
Hermann M. A., H. Sitter: Molecular Beam Epitaxy, 2nd edn., Springer Ser. Mater.<br />
Sci., Vol. 7 (Springer, Berlin, Heidelberg 1996)<br />
Kittel C.: Introduction to Solid State Physics, 7th edn. (Wiley, New York 1995)<br />
Laudies R. A.: The Growth of Single Crystals (Prentice-Hall, New York 1970)<br />
Matthews J. W. (ed.): Epitaxial Growth, Pts. a & b (Academic, New York 1975)<br />
Panish M. B., H. Temkin: Gas Source Molecular Beam Epitaxy, Springer Ser. Mater.<br />
Sci., Vol. 26 (Springer, Berlin, Heidelberg 1993)<br />
Williams, J. O.: Metal Organic Chemical Vapour Deposition (MOCVD) for the preparation<br />
of semiconductor materials and devices, in Growth and Characterization of<br />
Semiconductors, ed. by R. A. Stradling, P. C. Klipstein (Hilger, Bristol 1990) p. 17<br />
Chapter 2<br />
2.1 Quantum Theory of Real Materials (eds. Chelikowsky, J.R., Louie, S.G.)<br />
(Kluwer, Dordrecht, 1996)<br />
2.2 C. Kittel: Introduction to Solid State Physics, 7th edn. (Wiley, New York 1995)<br />
p. 37<br />
2.3 L. M. Falicov: Group Theory and its Physical Applications (Univ. Chicago<br />
Press, Chicago 1966)<br />
2.4 G. F. Koster: Space groups and their representations, in Solid State Physics 5,<br />
173–256 (Academic, New York 1957)<br />
2.5 G. Lucovsky, A comparison of the long wavelength optical phonons in trigonal<br />
Se and Te, Phys. Stat. Sol. (b) 49, 633 (1972)<br />
2.6 D. M. Greenaway, G. Harbeke: Optical Properties and Band Structure of Semiconductors<br />
(Pergamon, New York 1968) p. 44<br />
2.7 H. Jones: The Theory of Brillouin Zones and Electronic States in Crystals, 2nd<br />
edn. (North-Holland, Amsterdam 1975)<br />
2.8 M. L. Cohen, J. Chelikowsky: Electronic Structure and Optical Properties of<br />
Semiconductors, 2nd edn., Springer Ser. Solid-State Sci., Vol. 75 (Springer,<br />
Berlin, Heidelberg 1989)