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Principles of the Vapour Growth of Single Crystals

  • Emanuel Kaldis

Abstract

As late as 15 years ago crystal growth from the vapour phase was a completely underdeveloped subject. At that time only very few crystals had been grown from the vapour, and epitaxy was known only among very few scientists.

Keywords

Critical Nucleus Single Crystal Growth Ledge Spacing Large Single Crystal Constitutional Supercooling 
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. 1.
    P. GOLDFINGER and M. JEUNEHOMME, Trans. Faraday Soc., 59, 2851 (1963).Google Scholar
  2. 2.
    R. J. CAVENEY, J. Cryst. Growth. 7, 102 (1970).ADSGoogle Scholar
  3. 3.
    H. SCHAFER, Chemische Transportreaktionen, Weinheim (1962), New York and London (1964).Google Scholar
  4. 4.
    J. H. E. JEFFES, J. Cryst. Growth. 3,4, 13 (1968).ADSGoogle Scholar
  5. 5.
    D. FAHRENHEIT, Phil. Trans. Roy. Soc., 33, 78 (1924);Google Scholar
  6. 5a.
    M. TRIEWALD, Gehler’s Phys. Wörterbuch, 1, 678 (1787)Google Scholar
  7. 6.
    W. GIBBS, Collected Works, Vol. I, Thermodynamics. Yale Univer. Press, New Haven (1968).Google Scholar
  8. 7.
    M. VOLMER, Die Kinetik der Phasenbildung. Steinkopff, Dresden (1939).Google Scholar
  9. 8.
    J. P. HIRTH and G. M. POUND, Condensation and Evaporation. Pergamon. London (1963).Google Scholar
  10. 9.
    R. BECKER and W. DORING, Ann. Phvs., 24, (5). 719 (1935).ADSzbMATHGoogle Scholar
  11. 10.
    V. K. LAMER, Ind. Eng. Chem., 44, 1270 (1952).Google Scholar
  12. 11.
    M. VOLMER and H. FLOOD, Z. phys. Chem.. A 170, 273 (1934).Google Scholar
  13. 12.
    J. LOTH and G. M. POUND, J.Chern. Phys., 36, 2080 (1962).ADSGoogle Scholar
  14. 12a.
    J. L. KATZ and B. J. OSTERMIER, J. Chem. Phys., 47, 478 (1967).ADSGoogle Scholar
  15. 13.
    G. ZINSMEISTER, Kristall und Technik, 5, 207 (1970).Google Scholar
  16. 14.
    D. TURNBULL, J. Chem. Phys., 18, 198 (1950).ADSGoogle Scholar
  17. 15.
    B. K. CHAKRAVERTY and G. M. POUND in Condensation and Evaporation of Solids (E. Rutner et al. eds.), p. 553. Gordon and Breach, New York (1964).Google Scholar
  18. 16.
    E. KALDIS and M. SCHIEBER (Editors) ‘Crystal Growth and Epitaxy from the Vapour Phase’, North-Holland, Amsterdam 1971.Google Scholar
  19. 16a.
    See for example R. UEDA and T. INUZUKA in Ref. 16, p. 79.Google Scholar
  20. 17.
    J. L. ROBINS and T. N. RODIN, Surface Science, 2, 346 (1963).ADSGoogle Scholar
  21. 18.
    H. S. PEISER (Editor), ‘Crystal Growth’. Pergamon Press (1967).Google Scholar
  22. 18a.
    S. SHINOZAKI and H. SATO, in Ref. 18, p. 515.Google Scholar
  23. 19.
    G. I. DISTLER, V. N. LEBEDEVA and V. V. MOSKVIN, in Ref. 16, p. 98.Google Scholar
  24. 20.
    K. L. CHOPRA, J. Appl. Physics. 37, 2249 (1966).ADSGoogle Scholar
  25. 21.
    W. R. SINCLAIR and C. J. CALBICK, A ppl. Phys. Letters, 10, 214 (1967).ADSGoogle Scholar
  26. 22.
    S. INO, D. WATANABE and S. OGAWA, J. Phys. Soc., Japan, 17, 1074 (1962).ADSGoogle Scholar
  27. 23.
    M. HARSDORFF and H. RAETHER, Z. Natuforschung, 19, 1497 (1964).ADSGoogle Scholar
  28. 23a.
    T. N. RHODIN, P. W. PALMBERG and C. J. TODD, p. 499 in Ref. 23b.Google Scholar
  29. 23b.
    E. DRAUGLIS, R. G. GRETZ, R. I. JAFFE, (Editors), ‘Molecular Processes in Solid Surfaces’, McGraw-Hill, N.Y. (1969).Google Scholar
  30. 24.
    A. DUPRÉ, Theorie Mécaniaue de la Chaleur, p. 2883. Paris (1869).Google Scholar
  31. 25.
    W. KLEBER and I. MIETZ, Kristall und Technik, 3, 509 (1968).Google Scholar
  32. 26.
    R. LACKMANN, Z. f. Naturforschung. 17a, 812 (1962).ADSGoogle Scholar
  33. 27.
    See e.g. F. L. GALEENER, Phys. Rev. Letter, 27, 1716 (1971).ADSGoogle Scholar
  34. 28.
    J. B. HUDSON, J. Vac. Sc. Techn., 4, 230 (1967).ADSGoogle Scholar
  35. 29.
    R. LAUDISE, B. MULLIN, B. MUTAFSCHIEF and M. Schieber (Editors), ‘Crystal Growth 1971’, J. Cryst. Growth, 13/ 14 (1972).Google Scholar
  36. 29a.
    R. S. WAGNER and R. J. H. VOORHOEVE, Paper given at the 1st Conference on Crystal Growth and Epitaxy from the Vapour Phase, Zurich, Switzerland Sept. 23–26 (1970).Google Scholar
  37. 29b.
    R. J. H. VOORHOEVE, R. S. WAGNER and J. N. CARIDES, in Ref. 29, p. 167.Google Scholar
  38. 29c.
    R. J. H. VOORHOEVE and R. S. WAGNER, J. Appl. Phys., 42, 3948 (1971).ADSGoogle Scholar
  39. 30.
    G. TAMMAN, Die Aggregatzust[nde. Leipzig (1922).Google Scholar
  40. 31.
    D. TURNBULL and J. C. FISHER, J. Chem. Phys., 17, 71 (1949).ADSGoogle Scholar
  41. 32.
    B. HONIGMANN, Gleichgewichts- und Wachstumsformen von Kristallen, p. 18, Steinkopff, Dresden (1958).Google Scholar
  42. 33.
    For a good review of this early work see D. C. REYNOLDS. In ‘The Art and Science of Growing Crystals’, (J. J. Gilman, ed.), p. 62, J. Wiley, New York (1963).Google Scholar
  43. 33a.
    R. NITSCHE, Fortschr. Mineral., 44, 231 (1967).Google Scholar
  44. 34.
    E. KALDIS, Fortschr. Mineral., 42, 226 (1964).Google Scholar
  45. 35.
    E. KALDIS and R. WIDMER, J. Phys. Chem. Solids, 26, 1697 (1965).ADSGoogle Scholar
  46. 36.
    E. KALDIS, J. Phys. Chem. Solids, 26, 1701 (1965).ADSGoogle Scholar
  47. 37.
    E. KALDIS, J. Cryst. Growth, 5, 276 (1969).Google Scholar
  48. 38.
    G. W. SEARS, Acta Met., 3, 367 (1955).Google Scholar
  49. 39.
    F. PIZZARELLO, J. Appl. Phys., 25, 804 (1954).ADSGoogle Scholar
  50. 39a.
    H. SCHÄFER private communication.Google Scholar
  51. 40.
    E. KALDIS (unpublished work).Google Scholar
  52. 41.
    A. F. FRAY and S. NIELSEN, Brit. J. Appl. Phys., 12, 603 (1961).ADSGoogle Scholar
  53. 42.
    W. W. PIPER and S. J. POLICH, J. Appl. Phys., 32, 1278 (1961).ADSGoogle Scholar
  54. 43.
    P. D. FOCHS, W. GEORGE and P. D. AUGUSTUS, J. Cryst. Growth, 3, 4, 122 (1968).ADSGoogle Scholar
  55. 44.
    H. G. GRIMMEISS, A. RABENAU and H. KOELMANS, J. Appl. Phys., 32, 2123 (1961).ADSGoogle Scholar
  56. 45.
    A. RABENAU, Philips Techn. Rep., 26, 117 (1965).Google Scholar
  57. 46.
    R. SIRRINE, J. Electrochem. Soc., 111, 750 (1964).Google Scholar
  58. 47.
    C. van der STOLPE, J. Phys. Chem. Solids, 27, 1952 (1966).Google Scholar
  59. 47a.
    P. KLEINERT and D. SCHMIDT, J. Chem., 8, 395 (1968).Google Scholar
  60. 48.
    R. WIDMER, J. Cryst. Growth, 8, 216 (1971).ADSGoogle Scholar
  61. 49.
    B. HONIGMANN, Z. Elektrochem., 58, 322 (1954).Google Scholar
  62. 50.
    H. HEYER, in Ref. 18, p. 265.Google Scholar
  63. 51.
    Ch. NANEV and D. IVANOV, J. Cryst. Growth, 3,4, 530 (1968).ADSGoogle Scholar
  64. 52.
    P. B. PRICE. In ‘Progress in Materials Science’, Vol. II. Macmillan, New York (1963).Google Scholar
  65. 53.
    C. P. LOPER, and D. H. RASMUSSEN and H. A. KOELLING, in Ref. 16. p. 217.Google Scholar
  66. 54.
    W. DITTMAR and K. NEUMANN, Z. Elektrochem., 61 70 (1957).Google Scholar
  67. 55.
    J. J. HANAK and H. S. BERMAN in Ref. 18, p. 249.Google Scholar
  68. 56.
    S. G. PARKER and J. H. PINNELL, Trans. AIME, 245, 451 (1969).Google Scholar
  69. 57.
    F. H. SPEDDING, J. J. HANAK and A. H. DAANE, Trans. AIME, 379 (1958).Google Scholar
  70. 58.
    G. WEISE private communication.Google Scholar
  71. 59.
    A. NEUHAUS and K. RECKER, in Ref. 18, p. 235.Google Scholar
  72. 60.
    K. RECKER and R. SCHOEPE, in Ref. 16, p. 189.Google Scholar
  73. 60a.
    K. RECKER, D. MATEICA, Z. Krist., 128, 450 (1969).Google Scholar
  74. 61.
    L. CLARK and J. WOODS, J. Cryst. Growth, 3,4, 126 (1968).ADSGoogle Scholar
  75. 61a.
    H. SCHOLZ, in Ref. 18, p. 475.Google Scholar
  76. 61b.
    H. SCHOLZ private communication.Google Scholar
  77. 62.
    R. LORENZ, Chem. Ber., 24, 1509 (1891).Google Scholar
  78. 63.
    R. FRERICHS, Naturwissenschaften, 33, 387 (1947);Google Scholar
  79. 63a.
    R. FRERICHS, Phys. Rev., 72, 894 (1947).ADSGoogle Scholar
  80. 64.
    M. E. BISHOP and S. H. LIEBSON, J. Appl. Phys., 24, 5, 660 (1963).ADSGoogle Scholar
  81. 65.
    J. M. STANLEY, J. Chem. Phys., 24, 1279 (1956).ADSGoogle Scholar
  82. 66.
    E. SCHAROWSKY, Z. Physik, 135, 318 (1953).ADSGoogle Scholar
  83. 66a.
    F. C. FRANK, J. B. MULLIN, H. S. PEISER (Eds.), ‘Crystal Growth 1968’, North-Holland, Amsterdam (1968); J. Cryst. Growth, 3,4, 1968.Google Scholar
  84. 67.
    K. F. NIELSEN, p. 141 in Ref. 66a.Google Scholar
  85. 67a.
    K. FISCHER private communication, to be published.Google Scholar
  86. 68.
    E. D. CATER, E. R. PLANTE and P. W. GILLES, J. Chem. Phys., 32, 1269 (1960).ADSGoogle Scholar
  87. 69.
    A. H. DAANE, Rev. Sci. Instr., 23, 245 (1952).ADSGoogle Scholar
  88. 70.
    M. W. SHAFER, Private communication to Prof. G. Busch (1963).Google Scholar
  89. 71.
    P. SCHWOB and O. VOGT, Phys. Letters, 22, 374 (1966).ADSGoogle Scholar
  90. 72.
    P. JUNOD, private communication, see also Physik. Kondens. Materie, 8, 323 (1969).ADSGoogle Scholar
  91. 73.
    E. KALDIS, J. Cryst. Growth, 3,4, 146 (1968).ADSGoogle Scholar
  92. 74.
    E. KALDIS, Z. Krist., 128, 146 (1969).Google Scholar
  93. 75.
    E. KALDIS in Ref. 16, p. 295.Google Scholar
  94. 76.
    G. BUSCH, R. VERREAULT and O. VOGT, Solid State Comm., 8, 617 (1970).ADSGoogle Scholar
  95. 77.
    G. BUSCH, P. JUNOD and P. WACHTER, Phys. Letters, 12, 1 1 (1964).ADSGoogle Scholar
  96. 78.
    M. E. FISCHER, Phil. Mag., 7, 1731 (1962).ADSGoogle Scholar
  97. 79.
    M. W. SHAFER, T. R. McGUIRE and J. C. SUITS, Phys. Rev. Letters, 11, 251 (1963).ADSGoogle Scholar
  98. 80.
    E. KALDIS and R. VERREAULT, J. Less Common Metals, 20, 177 (1970).Google Scholar
  99. 81.
    G. BUSCH, E. KALDIS, R. VERREAULT and J. FELSCHE, Mat. Research Bulletin, 5, 9 (1970).Google Scholar
  100. 82.
    E. KALDIS, P. STREIT and P. WACHTER, J. Phys. Chem. Solids, 32, 159 (1971).ADSGoogle Scholar
  101. 83.
    J. MUHEIM, unpublished work.Google Scholar
  102. 84.
    G. SAMPIETRO, unpublished work.Google Scholar
  103. 85.
    R. Hauger and E. Kaldis, unpublished work.Google Scholar
  104. 86.
    R. F. ROLSTEN, Iodide Metals and Metal Iodides. J. Wiley, New York (1961).Google Scholar
  105. 87.
    E. KALDIS, in Ref. 87a, p. 3.Google Scholar
  106. 87a.
    G. W. CULLEN, E. KALDIS, R. L. PARKER, M. SCHIEBER (Editors), ‘Vapour Growth and Epitaxy’ North-Holland, Amsterdam (1972), J. Cryst. Growth, 17, (1972).Google Scholar
  107. 88.
    H. SCHÄFER, F. WEHMEIER and M. TRENKEL, J. Less Common Metals, 16, 290–1 (1968).Google Scholar
  108. 89.
    H. SCHÄFER in Ref. 16, p. 17.Google Scholar
  109. 89a.
    H. SCHÄFER and W. FUHR, Z. anorg. Chem., 319, 52 (1962).Google Scholar
  110. 90.
    G. GROLL, private communication.Google Scholar
  111. 91.
    P. S. SHAFFER, J. Am. Cer. Soc., 48, 509 (1965).Google Scholar
  112. 92.
    E. SCHMID and E. KALDIS, unpublished work, see also in Ref. 16, p. 295.Google Scholar
  113. 93.
    See e.g. S. G. STARLING and A. J. WOODALL, Physics. Longmans Green, London, (1950).Google Scholar
  114. 94.
    M. KNUDSEN, Ann. Phys., 47, 697 (1915).Google Scholar
  115. 95.
    K. NEUMANN and K. SCHMOLL, Z. phys. Chem., 2, 215 (1954).Google Scholar
  116. 96.
    R. B. HOLDEN, R. SPEISER and H. L. JOHNSTON, J. Am. Chem. Soc., 70, 3897 (1943).Google Scholar
  117. 96a.
    M. BARANAEV, J. Phys. Chem., USSR, 13, 1635 (1939).Google Scholar
  118. 97.
    J. W. CAHN, Acta Met., 8, 554 (1960).Google Scholar
  119. 98.
    M. VOLMER and I. ESTERMANN, Z. Phys., 7, 1, 13 (1921).ADSGoogle Scholar
  120. 99.
    G. W. SEARS, J. Chem. Phys., 25, 637 (1951).ADSGoogle Scholar
  121. 99a.
    G. W. SEARS, Acta Met., 3, 361 (1955).Google Scholar
  122. 100.
    M. POLANYI and E. WIGNER, Z. Phys. Chem., (A), Haber Volume 439 (1928).Google Scholar
  123. 101.
    W. K. BURTON, N. CABRERA and F. C. FRANK, Phil. Trans. Roy. Soc., (London), A243, 299 (1950).MathSciNetADSGoogle Scholar
  124. 102.
    F. C. FRANK, Disc. Faraday Soc., 5, 48, 67 (1949).Google Scholar
  125. 103.
    F. C. FRANK, In ‘Growth and Perfection of Crystals’, (R. H. Doremus et al. eds.) p. 111. J. Wiley, New York (1958).Google Scholar
  126. 103a.
    C. HERRING, Phys. Rev., 82, 87 (1951).ADSzbMATHGoogle Scholar
  127. 104.
    J. P. HIRTH and G. M. POUND, J. Phys. Chem., 64, 619 (1960).Google Scholar
  128. 105.
    H. BETHGE, p. 623, in Ref. 18.Google Scholar
  129. 105a.
    H. BETHGE, K. W. KELLER and E. ZIEGLER, p. 184 in Ref. 66a.Google Scholar
  130. 106.
    G. A. BASSETT, Phil Mag., 3, 1042 (1958).ADSGoogle Scholar
  131. 107.
    B. W. BATTERMAN, J. Appl. Phys., 28, 1236 (1957).ADSGoogle Scholar
  132. 108.
    F. C. FRANK and M. B. IVES, J. Appl. Phys., 31, 1996 (1960).ADSGoogle Scholar
  133. 109.
    M. B. IVES, Ph.D. Thesis, University of Bristol (1960).Google Scholar
  134. 110.
    J. P. HIRTH and G. M. POUND, Trans. AIME, 215, 932 (1959).Google Scholar
  135. 111.
    O. KNACKE, R. SCHMOLKE and I. N. STRANSKI, Z. Krist., 109, 184 (1957).Google Scholar
  136. 112.
    W. HIRSCHWALD and I. N. STRANSKI, in Condensation and Evaporation of Solids (E. Rutner et al. eds.), p. 59. Gordon and Breach, New York (1964).Google Scholar
  137. 113.
    R. W. MAR and A. W. SEARCY, J. Chem. Phys., 53, 3076 (1970).ADSGoogle Scholar
  138. 114.
    H. S. JOHNSTON, Gas Phase Reaction Rate Theory. Ronald Press, (1965).Google Scholar
  139. 115.
    G. A. SOMORJAI and J. E. LESTER in Progress in Solid State Chemistry (H. Reiss, ed.), p. 1, Vol. 4. Pergamon Press, London (1967).Google Scholar
  140. 116a.
    I. N. STRANSKI and A. KORB, Naturwiss., 33, 220 (1946).ADSGoogle Scholar
  141. 116b.
    I. KARUTZ and I. N. STRANSKI, Z. anorg. Chem., 292, 330 (1957).Google Scholar
  142. 116c.
    K. A. BECKER and R. A. NIESLER, Z. f. Phys. Chem., NF36, 53 (1963).Google Scholar
  143. 116d.
    K. A. BECKER, G. GRAF and I. N. STRANSKI, Z. Phys. Chem., NF 30, 76 (1971).Google Scholar
  144. 116e.
    K. A. BECKER, H. J. FORTH and I. N. STRANSKI, Z. Elektrochem., 64, 373 (1960).Google Scholar
  145. 117.
    H. W. MELVILLE and S. C. GRAY, Trans. Faraday Soc., 32, 1026 (1936).Google Scholar
  146. 118.
    F. METSGER, Helv. Phys. Acta, 16, 323 (1943).Google Scholar
  147. 119.
    L. BREWER and J. S. KANE, J. Phys. Chem., 59, 105 (1955).Google Scholar
  148. 120.
    R. S. WAGNER and W. C. ELLIS, Appl. Phys. Letters, 1, 89 (1964).ADSGoogle Scholar
  149. 121.
    R. C. SCHOONMAKER, A. BUHL and J. LEMLEY, J. Phys. Chem., 69, 3455 (1965).Google Scholar
  150. 122.
    R. S. BRADLEY and P. VOLAUS, Proc. Roy. Soc., A217, 508 (1953).ADSGoogle Scholar
  151. 123.
    R. C. MILLER and P. KUSCH, J. Chem. Phys., 25, 860 (1956);ADSGoogle Scholar
  152. 123a.
    R. C. MILLER and P. KUSCH, J. Chem. Phys., 27, 981 (1957).ADSGoogle Scholar
  153. 124.
    J. BERKOWITZ and W. A. CHUPKA, J. Chem. Phys., 29, 653 (1958).ADSGoogle Scholar
  154. 125.
    P. KUSCH in Ref. 112, p. 87.Google Scholar
  155. 126.
    J. E. LESTER and G. A. SOMORJAI, J. Chem. Phys., 49, 2940 (1968).ADSGoogle Scholar
  156. 127.
    J. E. HOVE, Phys. Rev., 99, 480 (1955).ADSGoogle Scholar
  157. 128a.
    G. A. SOMORJAI, in Ref. 112, p. 417.Google Scholar
  158. 128b.
    G. A. SOMORJAI and D. W. JEPSEN, J. Chem. Phys., 41, 1389 (1964).ADSGoogle Scholar
  159. 128c.
    G. A. SOMORJAI and H. B. LYON, J. Chem. Phys., 43, 1456 (1965).ADSGoogle Scholar
  160. 128d.
    G. A. SOMORJAI, Surf. Sci., 2, 298 (1964).ADSGoogle Scholar
  161. 128e.
    G. A. SOMORJAI, J. Chem. Phys., 43, 1450 (1965).ADSGoogle Scholar
  162. 129.
    T. N. RHODIN, in Molecular Processes on Solid Surfaces (E. Drauglis et al. eds.), p. 394. McGraw-Hill (1969).Google Scholar
  163. 130.
    E. KALDIS, paper given at the annual meeting of the German Crystal Growth Society, Bonn, Oct. 5–7 (1971).Google Scholar
  164. 131.
    E. KALDIS and A. SIMANOVSKIS, to be published.Google Scholar
  165. 132.
    R. JAECKEL and W. PEPERLE, Z. phys. Chem., (Leipzig), 217, 321 (1961).Google Scholar
  166. 132a.
    H. WIEDEMEIER, E. A. IRENE and A. K. CHANDHURI, in Ref. 29, p. 393.Google Scholar
  167. 133.
    F. JONA and G. MANDEL, J. Phys. Chem. Solids. 25, 187 (1969).ADSGoogle Scholar
  168. 134.
    D. RICHMANN (private communication 1966).Google Scholar
  169. 135.
    E. KALDIS and R. WIDMER, Internal Report of RCA Laboratories Zurich, ‘Iodine Transport Rate of InAs in a Closed System’, April (1966).Google Scholar
  170. 136.
    H. J. SCHEEL in Ref. 29 p. 9, J. Cryst. Growth. 8, 304 (1971).ADSGoogle Scholar
  171. 137.
    J. W. RUTTER and B. CHALMERS, Can. J. Phys., 31, 15 (1953).ADSGoogle Scholar
  172. 138.
    T. B. REED and W. J. LaFLEUR, Appl. phys. Letters, 5, 191 (1964).ADSGoogle Scholar
  173. 139.
    M. TOYAMA, Jap. J. Appl. Phys., 5, 1204 (1966).ADSGoogle Scholar
  174. 140.
    M. M. FAKTOR, R. HECKINGBOTTOM and I. GARRETT, J. Chem. Soc., A 1970, 2657; also Ref. 16, p. 3.Google Scholar
  175. 141.
    D. W. G. BALLENTYNE, S. WETWATANA and E. A. D. WHITE, J. Cryst. Growth, 7, 79 (1970).ADSGoogle Scholar
  176. 142.
    M. M. FAKTOR and I. GARRETT, in Ref. 16, p. 12.Google Scholar
  177. 143.
    T. B. REED, W. J. LaFLEUR and A. J. STRAUSS, J. Cryst. Growth, 3, 4, 115 (1968).ADSGoogle Scholar
  178. 144.
    L. CLARK and J. WOODS, Brit. J. Appl. Phys., 17, 319 (1966).ADSGoogle Scholar
  179. 145.
    E. KALDIS, unpublished work, Laboratories RCA Zurich, Internal Report, ‘Nucleation and Growth of Large Single Crystals by Chemical Transport III, Iodine Transport and Sublimation of CdS’, August (1966).Google Scholar
  180. 146.
    J. A. BEUN, R. NITSCHE and H. U. BOLSTERLI, Physica, 28, 184 (1962).ADSGoogle Scholar
  181. 147.
    H. SCHÄFER and H. ODENBACH, Z. anorg. Chem., 346, 127 (1966).Google Scholar
  182. 148.
    E. KALDIS, L. KRAUSBAUER and R. WIDMER, Cd4SiS6 and Cd4 SiSe6 New Ternary Photoconductors and Phosphors, RCA Laboratories, Zurich, internal report (1965).Google Scholar
  183. 149.
    E. KALDIS, ‘High Temperature Chemical Transport, Experimental Methods and Fundamental Aspects of Growth’, Proceedings of the 4th All-Union Conference on Crystal Growth USSR, September 1972, Tzachkadzhor, Armenia USSR (1972).Google Scholar
  184. 150.
    K. A. JACKSON, in ‘Liquid Metals and Solidification’, American Society of Metals, Cleveland. Ohio (1958).Google Scholar
  185. 151.
    N. CABRERA, Discussions Faraday Societv, 28, 16 (1960).Google Scholar
  186. 152.
    J. W. CAHN, W. B. HILLIG and G. W. SEARS, Acta Met., 12, 1421 (1964).Google Scholar
  187. 153.
    K. A. JACKSON, D. R. UHLMANN and J. D. HUNT, J. Cryst. Growth, 1, 1–36 (1967).ADSGoogle Scholar
  188. 154.
    H. J. LEAMY and K. A. JACKSON, J. Appl. Phys., 42, 2121 (1971).ADSGoogle Scholar
  189. 155.
    J. D. WEEKS, G. H. GILMER H. J. LEAMY (to be published).Google Scholar
  190. 156.
    A. PAVLOVSKA and D. NENOV, Surface Sci., 27, 211 (1971).ADSGoogle Scholar
  191. 157.
    H. J. LEAMY and K. A. JACKSON, in Ref. 29, p. 140; J. Cryst. Growth, 13/14 (1972).Google Scholar
  192. 158.
    H. P. BONZEL and N. A. GJOSTEIN, in ‘Molecular Processes in Solid Surfaces’, (E. Drauglis, R. G. Gretz, R. I. Jaffe, eds.), p. 533, McGraw-Hill, N.Y. (1969).Google Scholar
  193. 158a.
    K. A. JACKSON, Acta Met., 7, 747 (1959).Google Scholar
  194. 159.
    G. E. RHEAD, Surface Sci., 13, 353 (1969).ADSGoogle Scholar
  195. 160.
    W. BECKENBAUGH, J. EVERS, E. KALDIS and V. HILDEBRANDT, J. Cryst. Growth. (to be published).Google Scholar
  196. 161.
    O. D. McMASTERS, K. A. GSCHNEIDNER, E. KALDIS and G. SAMPIETRO appears in J. Chem. Thermodynamics. Google Scholar
  197. 162.
    P. WACHTER, ‘The Optical, Electrical and Magnetic Properties of the Europium Chalcogenides and the Rare Earth Pnictides’, CRC Critical Reviews in Solid State Sci. July (1972).Google Scholar
  198. 1963.
    For an introduction to vapour pressure measurements see e.g. E. D. CATER, in ‘Physiocochemical Measurements in Metals Research’, Part 1 (R. A. Rapped.), Vol. IV in Techniques of Metals Research (General Editor R. F. Bunshah) Interscience Publishers (1970).Google Scholar
  199. 164.
    A. V. HARIHARAN and H. A. EICK, High Temp. Sci., 3, 123 (1971).Google Scholar
  200. 165.
    S. P. GORDIENKO, V. V. FESENKO, B. V. FENOCHKA and A. A. LYSENKO, Zhur. Fiz. Khim, 45, 1932 (1971);Google Scholar
  201. 165.
    S. P. GORDIENKO, V. V. FESENKO, B. V. FENOCHKA and A. A. LYSENKO, Engl. Transl., Russ. J. Phys. Chem., 45, 1100 (1971).Google Scholar
  202. 166.
    M. FRISCH, private communication.Google Scholar
  203. 167.
    G. MANDEL, Phys. Rev., 134, A 1073 (1964).MathSciNetADSGoogle Scholar
  204. 168.
    O. KNACKE, I. N. STRANSKI and G. A. WOLFF, Z. Elektrochem., 56, 476 (1952).Google Scholar
  205. 169.
    Z. A. MUNIR and J. P. HIRTH, J.Annl. Phys., 41, 2697 (1970)ADSGoogle Scholar
  206. 170.
    I. N. STRANSKI, Z. phys. Chem.. B 11, 342 (1931).Google Scholar
  207. 171.
    J. P. HIRTH and J. LOTHE, ‘Theory of Dislocations’, p. 475, McGraw-Hill, N.Y. (1968).Google Scholar
  208. 172.
    L. W. BARR, J. Chem. Phys., 51, 1683 (1969).ADSGoogle Scholar
  209. 173.
    L. W. BARR, I. M. OODLESS, J. A. MORRISON and R. RUNDHAM, Trans. Faraday Soc., 56, 697 (1960).Google Scholar
  210. 174.
    D. K. DAWSON, L. W. BARR, Proc. Brit. Ceram. Soc., 9, 171 (1967).Google Scholar
  211. 175.
    C. GRIMES, J. HINKLEY and J. E. LESTER, J. Chem. Phys., 56, 524 (1972).ADSGoogle Scholar
  212. 176.
    L. W. BARR, D. K. DAWSON, Atomic Energy Research Establishment Rept. AERE-R 6234 (1969).Google Scholar
  213. 177.
    T. E. CALLON, I. G. HIGGINBOTHAM, M. PRUTTON and H. TOKUTAKA, Surf. Sci., 21, 224, 241 (1970).Google Scholar
  214. 178.
    L. W. BARR, J. A. MORRISON and P. A. SCHROEDER, J. App. Phys., 36, 624 (1965).ADSGoogle Scholar
  215. 179.
    N. LAURANCE, Phys. Rev., 120, 57 (1970).ADSGoogle Scholar
  216. 180.
    W. BECKENBAUGH, J. EVERS, G. GÜNTHERODT, E. KALDIS and P. WACHTER, J. Phys. Chem. Solids. (to be published).Google Scholar
  217. 181.
    G. BUSCH, E. KALDIS, E. TEKER and P. WACHTER, Collogne Intern. No 180 du CNRS, p. 359, Editions CNRS 1969.Google Scholar
  218. 182.
    See for example E. KALDIS, ‘Liquid Layers on Vapor Grown Crystals’ in Proceedings ISSCG-2, (R. Ueda, ed.) Mt. Fuji District, Japan, April (1974).Google Scholar

Copyright information

© Springer Science+Business Media New York 1974

Authors and Affiliations

  • Emanuel Kaldis
    • 1
  1. 1.Laboratorium für Festkörperphysik ETH HönggerbergZürichSwitzerland

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