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Journal of Crystal Growth 1992: Vol 119 Index PDF

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Preview Journal of Crystal Growth 1992: Vol 119 Index

Journal of Crystal Growth 119 (1992) 412-415 journnor CRYSTAL North-Holland GROWTH | Author index An, C.Y., see Regel 119 (1992) 94 Darby, M.I., see Taylor 119 (19922)2 1 Andrews, J.B., A.L. Schmale and A.C. Derebail, R., W.R. Wilcox and L.L. Regel, Sandlin, The influence of gravity level Directional solidification of InSb in a during directional solidification of immis- centrifuge 119 (1992) 98 cible alloys 119 (1992) 152 Duval, W.M.B., see Batur 119 (1992) 371 Arivuoli, D., see Ganesha 119 (1992) 303 Arnold, W.A., W.R. Wilcox, F. Carlson, A. Einav, Y., see Horowitz 119 (1992) 391 Chait and L.L. Regel, Transport modes Emel’chenko, G.A., see Masalov 119 (1992) 297 during crystal growth in a centrifuge 119 (1992) 24 Arrott, A., see Strong 119 (1992) 200 Farber, G.K., see Strong 119 (1992) 200 Feng, Y., see Taylor 119 (1992) 221 Bandeira, I.N., see Regel 119 (1992) 94 Fikri, M.A., G. Labrosse and M. Betrouni, Barczy, P., J. Sdlyom and L.L. Regel, Solidi- The melt phase hydrodynamics for the fication of Al-Al ,Ni(Cu) eutectics at high “stabilized” Bridgman procedure applied gravity 119 (1992) 160 under centrifugation; preliminary analy- Barilo, S.N., A.P. Ges, S.A. Guretskii, D.I. sis and numerical results 119(1992) 41 Zhigunov, A.V. Zubets, A.A. Ignatenko, Fukuda, T., see Kan 119 (1992) 215 A.N. Igumentsev, I.D. Lomako, A.M. Fukuda, T., see Kawasaki 119 (19923)1 7 Luginets, V.N. Yakimovich, L.A. Kurochkin, L.V. Markova and O.I. Krot, Growth of bulk single crystals of Ganesha, R., D. Arivuoli and P. Ramasamy, YBa,Cu;0,_; from a new type of cru- Observations made during the growth of trihalides of group Vb elements 119 (1992) 303 cible 119 (1992) 403 Batur, C., R.B. Sharpless, W.M.B. Duval, Garnier, J. and L.M. Cottineau, Questions raised about material processing in a B.N. Rosenthal and N.B. Singh, Identifi- centrifuge: lessons derived from the cation and control of a multizone crystal growth furnace 119 (1992) 371 LCPC’s experience 119 (1992) 66 Gazit, D., see Horowitz 119 (1992) 391 Baturin, N.A., see Vorobiov 119 (1992) 111 Ben-Amar, G., see Horowitz 119 (1992) 391 Ges, A.P., see Barilo 119 (1992) 403 Ghiordanescu, V., see Voda 119 (1992) 339 Betrouni, M., see Fikri 119 (1992) 41 Biderman, S., see Horowitz 119 (1992) 391 Glicksman, M.E., see Sokolowski 119 (1992) 126 Grima, P., M. Quintero and J.C. Woolley, Bolt, R.J. and W.J.P. van Enckevort, Obser- T(z) diagrams and lattice parameter val- vation of growth steps and growth hillocks ues for the Hg,,(Culn),Mn,,Te, and on the {100}, {210}, {011} and {101} faces Hg, ,(AgIn),,Mn,,Te, systems 119 (1992) 381 of flux grown KTiOPO, (KTP) 119 (1992) 329 Gurestskii, S.A., see Barilo 119 (1992) 403 Burdin, B.V., L.L. Regel, A.M. Turchaninov and O.V. Shumaev, The peculiarities of Guseva, M.B., see Shibaev 119 (1992) 399 material crystallization experiments in the CF-18 centrifuge under high gravity 119 (1992) 61 He, Li, see Li 119 (1992) 322 He Youping, Su Genbo, Wu Bochang and Cao, F.N., see Zhong 119 (1992) 74 Jang Rihong, Growth and characteristics Carlson, F., see Arnold 119 (1992) 24 of 5-nitrouracil crystal 119 (1992) 393 Chait, A., see Arnold 119 (1992) 24 Horowitz, A., S. Biderman, Y. Einav, G. Chen Jinfeng, see Li 119 (19923)6 3 Ben-Amar, D. Gazit, A. Stern and M. Chen Ying, see Li 119 (19923)6 3 Weiss, Comment on “Preparation and Cottineau, L.M. see Garnier 119 (1992) 66 properties of hard crystalline materials Curreri, P.A., The effectiveness of Coriolis for optical applications — a review” by dampening of convection during aircraft J.A. Savage 119 (1992) 391 high-g arcs 119 (1992) 141 Hoshikawa, K., see Kan 119 (1992) 215 Author index Hoshikawa, K., see Kawasaki 119 (19923)1 7 Li, Jie, Li He, Nanchang Zhu, Pudong Lao Huang, Gong-Fan, J.T. Lin, Jiang Rihong and Shixin Yuang, Molecular beam epi- and Su Genbo, Growth of large single taxial growth and characterization of crystals of meta-nitroaniline 119 (1992) 309 ZnTe and ZnTe-CdTe superlattice 119 (19923)2 2 Li, L., see Parfeniuk 119 (19922)6 1 Ignatenko, A.A., see Barilo 119 (1992) 403 Li Zhengdong, see Su 119 (19923)6 8 Igumentsev, A.N., see Barilo 119 (1992) 403 Lin, J.T., see Huang 119 (19923)0 9 Indro, M., see Taylor 119 (1992) 221 Lin, L.Y., see Zhong 119 (1992) 74 Iwanari, S. and K. Takayanagi, Surfactant Lipton, H.L., see Luo 119 (19924)0 7 epitaxy of Si on Si(111) surface mediated Lomako, I.D., see Barilo 119 (19924)0 3 by a Sn layer. I. Reflection electron mi- Luginets, A.M., see Barilo 119 (19924)0 3 croscope observation of the growth with Luo, M., C.X. Zhang, D.W. Toth and H.L. and without a Sn layer mediate the step Lipton, Addition of B-mercaptoethanol flow 119 (1992) 229 produced stable crystals of Theiler’s virus 119 (1992) 407 Iwanari, S., Y. Kimura and K. Takayanagi, Surfactant epitaxy of Si on Si(111) sur- Ma, W.J., see Zhong 119 (1992) 74 face mediated by a Sn layer. II. Critical Maeda, H., see Kimura 119 (1992) 313 step flow of the growth with and without Markova, L.V., see Barilo 119 (1992) 403 mediate 119 (1992) 241 Masalov, V.M., G.A. Emel’chenko and A.B. Mikhajlov, Hydrodynamics and oscilla- Jang Rihong, see He 119 (1992) 393 tion of temperature in single crystal Jiang Rihong, see Huang 119 (1992) 309 growth from high-temperature solutions Jones, I.P., see Taylor 119 (1992) 221 with use of ACRT 119 (1992) 297 Mavlonov, Sh., The phenomena of crystal- lization in centrifugal force fields and the Kan, S., M. Sakamoto, Y. Okano, K. Hoshikawa and T. Fukuda, LiNbO; sin- dynamo effect 119 (1992) 167 Melekh, B.T., see Volkov 119 (1992) 122 gle crystal growth by the continuous Mikhajlov, A.B., see Masalov 119 (1992) 297 charging Czochralski method with Li/Nb ratio control 119 (19922)1 5 Muller, G., G. Neumann and W. Weber, Kan, S., see Kawasaki 119 (19923)1 7 The growth of homogeneous semicon- Kartenko, N.F., see Volkov 119 (1992) 122 ductor crystals in a centrifuge by the sta- bilizing influence of the Coriolis force 119(1992) 8 Kawasaki, K., Y. Okano, S. Kan, M. Sakamoto, K. Hoshikawa and T. Fukuda, Uniformity of Fe-doped LiNbO, single Neumann, G., see Muller 119(1992) 8 crystal grown by the Czochralski method 119 (1992) 317 Nishikawa, Y., H. Sugawara and Y. Koku- bun, Anomalous Mg incorporation be- Kimura, H., T. Numazawa, M. Sato, H. havior in InGaAIP grown by metalor- Maeda and M. Sakamoto, Minimization of lattice parameter change in Czochral- ganic chemical vapor deposition 119 (1992) 292 ski grown (Gd,_,Y,)Ga;O,, garnet sin- Nistor, S.V., see Voda 119 (1992) 339 gle crystal 119 (19923)1 3 Nouruzi-Khorasani, A., see Taylor 119 (1992) 221 Kimura, Y., see Iwanari 119 (19922)4 1 Numazawa, T., see Kimura 119 (1992) 313 Kokubun, Y., see Nishikawa 119 (19922)9 2 Kou, S., see Lan 119 (19922)8 1 Okano, Y., see Kan 119 (1992) 215 Krot, O.I., see Barilo 119 (19924)0 3 Okano, Y., see Kawasaki 119 (19923)1 7 Kurochkin, L.A., see Barilo 119 (19924)0 3 Kuznetsov, Yu.G., see Vekilov 119 (19922)4 8 Palosz, W., see Wiedemeier 119 (1992) 79 Pan Rfen, see Su 119 (1992) 368 Labrosse, G., see Fikri 119 (1992) 41 Parfeniev, R.V., see Volkov 119 (1992) 122 Lan, C.W. and S. Kou, Shortened floating Parfeniuk, C., F. Weinberg, I.V. Samara- zone crystal growth under normal gravity 119 (1992) 281 sekera, C. Schvezov and L. Li, Measured Lao, Pudong, see Li 119 (1992) 322 critical resolved shear stress and calcu- Li, C.J., see Zhong 119 (1992) 74 lated temperature and stress fields dur- Li Gansheng, Shi Zhenzhu, Wu Jinhua, Chen ing growth of CdZnTe 119 (1992) 261 Ying, Chen Jinfeng and Yang Hua, Piekarczyk, W., Diamond—vapour interface Growth of large size yttrium aluminum and processes proceeding on it during perovskite (YAP) laser crystals without growth of diamond crystals. I. Diamond light scattering centers 119 (1992) 363 (111) face 119 (1992) 345 414 Author index Quintero, M., see Grima 119 (1992) 381 Dexiang and Yang Tongqin, Growth of large crystals of pentaerythritol and tris- Ramasamy, P., see Ganesha 119 (1992) 303 hydroxymethylaminomethone 119 (1992) 368 Rappl, P.H.O., see Regel 119 (1992) 94 Su Genbo, see He 119 (1992) 393 Regel, L.L., see Arnold 119 (1992) 24 Regel, L.L., see Burdin 119 (1992) 61 Takayanagi, K., see Iwanari 119 (1992) 229 Regel, L.L. and O.V. Shumaev, GaSb direc- Takayanagi, K., see Iwanari 119 (1992) 241 tional solidification under high gravity Tamura, S., see Yokota 119 (1992) 195 conditions 119 (1992) 70 Tao, F., see Zhong 119 (1992) 74 Regel, L.L., see Wiedemeier 119 (1992) 79 Taylor, K.N.R., A. Nouruzi-Khorasani, M. Regel, L.L., A.M. Turchaninov, O.V. Shu- Indro, G.J. Russell, M.I. Darby, Y. Feng, maev, I.N. Bandeira, C.Y. An and P.H.O. I.P. Jones and R.E. Smallman, Intersec- Rappl, Growth of lead-tin telluride crys- tions of twins and of optical domains in tals under high gravity 119 (1992) 94 crystalline YBa,Cu,0,_; 119 (19922)2 1 Regel, L.L., see Derebail 119 (1992) 98 Tokuda, H., see Yokota 119 (19921)9 5 Regel, L.L., see Volkov 119 (19921)2 2 Toth, D.W., see Luo 119 (19924)0 7 Regel, L.L., see Barczy 119 (19921)6 0 Turchaninov, A.M., see Burdin 119 (1992) 61 Rosenthal, B.N., see Batur 119 (19923)7 1 Turchaninov, A.M., see Regel 119 (1992) 94 Russell, G.J., see Taylor 119 (19922)2 1 Turchaninov, A.M., see Volkov 119 (19921)2 2 Sakamoto, M., see Kan 119 (19922)1 5 Van Enckevort, W.J.P., Phase shifting inter- Sakamoto, M., see Kimura 119 (19923)1 3 ferometry of growth patterns on the octa- Sakamoto, M., see Kawasaki 119 (19923)1 7 hedral faces of natural diamonds 119 (1992) 177 Samarasekera, I.V., see Parfeniuk 119 (19922)6 1 Van Enckevort, W.J.P., see Bolt 119 (1992) 329 Sandlin, A.C., see Andrews 119 (19921)5 2 Vekilov, P.G. and Yu.G. Kuznetsov, Growth Sato, M., see Kimura 119 (19923)1 3 kinetics irregularities due to changed dis- Schmale, A.L., see Andrews 119 (19921)5 2 location source activity; (101) ADP face 119 (1992) 248 Schvezov, C., see Parfeniuk 119 (19922)6 1 Voda, M., S.V. Nistor and V. Ghiordanescu, Sharpless, R.B., see Batur 119 (19923)7 1 Preparation of pure and doped CdF, sin- Shi Zhenzhu, see Li 119 (19923)6 3 gle crystals 119 (1992) 339 Shibaev, P.V. and M.B. Guseva, Molecular Volkov, M.P., B.T. Melekh, R.V. Parfeniev, orientation in propyl- and _ hexyloxy- N.F. Kartenko, L.L. Regel and A.M. cyanobiphenyl vacuum deposited thin Turchaninov, Properties of supercon- films 119 (1992) 399 ducting Bi-Sr-—Ca—Cu-O system re- Shlichta, P.J., Crystal growth and materials melted under higher gravity conditions 119 (1992) 122 processing above 1000 g 119 (1992) 1 Vorobiov, P.A., N.A. Baturin and O.V. Shu- Shumaev, O.V., see Burdin 119 (1992) 61 maev, Laminar convection in the melt Shumaev, O.V., see Regel 119 (1992) 70 during crystal growth in a centrifuge 119 (1992) 111 Shumaev, O.V., see Regel 119 (1992) 94 Shumaev, O.V., see Vorobiov 119 (19921)1 1 Singh, N.B., see Batur 119 (19923)7 1 Wang, R.B., M. Sommer and F.W. Smith, Smallman, R.E., see Taylor 119 (19922)2 1 The deposition of diamond films via the Smith, F.W., see Wang 119 (19922)7 1 oxyacetylene torch: experimental results Sokolowski, R.S. and M.E. Glicksman, Grav- and thermodynamic predictions 119 (1992) 271 itational influence on eutectic solidifica- Weber, W., see Muller 119(1992) 8 tion 119 (1992) 126 Weinberg, F., see Parfeniuk 119 (1992) 261 Sdélyom, J., see Barczy 119 (1992) 160 Weiss, M., see Horowitz 119 (1992) 391 Sommer, M., see Wang 119 (1992) 271 Wiedemeier, H., L.L. Regel and W. Palosz, Stern, A., see Horowitz 119 (1992) 391 Vapor transport and crystal growth of Stoddard, B.L., see Strong 119 (1992) 200 GaSe under normal and high accelera- Strong, R.K., B.L. Stoddard, A. Arrott and tion 119 (1992) 79 G.K. Farber, Long duration growth of Wilcox, W.R., see Arnold 119 (1992) 24 protein crystals in microgravity aboard Wilcox, W.R., see Derebail 119 (1992) 98 the MIR space station 119 (1992) 200 Woolley, J.C., see Grima 119 (19923)8 1 Sugawara, H., see Nishikawa 119 (1992) 292 Wu Bochang, see He 119 (19923)9 3 Su Genbo, see Huang 119 (1992) 309 Wu Dexiang, see Su 119 (19923)6 8 Su Genbo, Li Zhengdong, Pan Rfen, Wu Wu Jinhua, see Li 119 (19923)6 3 Author index 415 Xue, M.L., see Zhong 119 (1992) 74 Zhang, C.X., see Luo 119 (1992) 407 Zheng, Y., see Zhong 119 (1992) 74 Yakomovich, V.N., see Barilo 119 (1992) 403 Zhigunov, D.I., see Barilo 119 (1992) 403 Yamaura, K., see Yokota 119 (1992) 195 Zhong, X.R., B.J. Zhou, Q.M. Yan, F.N. Yan, Q.M., see Zhong 119 (1992) 74 Ceo, ©. Li LF. £0, Ws. Be, .t. Yang Hua, see Li 119 (1992) 363 Zheng, F. Tao and M.L. Xue, Prelimi- Yang Tonggqin, see Su 119 (1992) 368 nary results of GaAs single crystal growth Yokota, K., K. Yamaura, H. Tokuda and S. under high gravity conditions 119 (1992) 74 Tamura, Metalorganic beam _ epitaxial Zhou, B.J., see Zhong 119 (1992) 74 growth of GaAs on Si substrates treated Zhu, Nanchang, see Li 119 (1992) 322 by a partially ionized mixture of H, and Zubets, A.V., see Barilo 119 (1992) 403 AsH, 119 (1992) 195 Yuan, Shixin, see Li 119 (1992) 322 * Journal of Crystal Growth 119 (1992) 416-418 journo CRYSTAL North-Holland GROWTH Subject index Alloys — aluminum nickel 160 by electrical methods 98 — eutectic 126 by electron diffraction 221 — immiscible 152 by electron microscopy 195, 221, 229, 271 — iron carbon 141 by infrared spectroscopy 309, 339, 393, 399 — copper lead aluminum 152 by interferometry 177, 248 Alumina 391 by magnetic properties 122, 403 Aluminum 167 by optical microscopy 70, 79, 94, 98, 160, 177, 221, 248, 281, — indium 152 309, 313, 329 — nickel alloys 160 by optical properties 215 Ammonium by photoluminescence 195, 322 — dihydrogen phosphate 248 by Raman spectroscopy 322 Antimony by reflection high energy electron diffraction 195, 229 — tribromide 303 by thermogravimetry 393 — triiodide 303 by X-ray methods 79, 122, 195, 248, 313, 322, 363, 381, 393, Apparatus 403, 407 for melt growth Computer simulation 261 — by Bridgman-Stockbarger method Convection 1, 8, 24, 41, 66, 79, 94, 98, 111, 126, 141, 152, 160, — — in centrifuge 281, 297 — — — of lead telluride 24 Copper — — of cadmium fluoride 339 — lead aluminum 152 for thin film growth Crystal growth — by metalorganic molecular beam epitaxy — under high gravity conditions 1, 8, 24, 41, 61, 66, 70, 74, 79, — — of gallium arsenide 195 94, 98, 111, 122, 126, 141, 152, 160, 167 for vapor diffusion crystallization — — under microgravity Dendritic growth - — — of proteins 200 — of iron carbon alloys 141 for miscellaneous purposes — of trihalides of group Vp elements 303 — — control of solid—liquid interface 371 Diamond 177, 271, 345 — — obtaining high gravity 66 Diffusional control 24, 79, 94 Arsenic Dislocations 248, 322, 329 — tniiodide 303 Distribution coefficient 317 Dopants 98, 292, 317 Barium — nitrate 1 Etching Bismuth — chemical 70, 98, 303 — strontium calcium cuprate 122 Eutectic growth — triiodide 303 — of alloys 126, 141, 160 Burton—Cabrera—Frank theory 241 Finite element method Cadmium — simulating cadmium zinc telluride 261 — fluoride 339 — telluride 322 Gallium — zinc telluride 261 — antimonide 8, 70 Characterization methods — arsenide 74, 195 — by absorption spectroscopy 317, 322, 339 Garnets — by cathodoluminescence 74, 177 — ferro 297 — by differential thermal analysis 381 — rare earths 313 Subject index Germanium by uniaxial solidification — selenide 79 — in centrifuge Grain boundary 70, 98 — of aluminum 167 — of gallium antimonide 8 Heterojunction 322 — — of indium antimonide 8 Mercury Indium — copper indium manganese telluride 381 — antimonide 8, 98 — silver indium manganese telluride 381 — gallium aluminum phosphide 292 Microgravity Interface 70, 281, 322 — growth of proteins 200 Iron Morphological stability 152 — carbon alloy 141 Morphology of growth 79, 221, 303, 329, 403 Kinetics m-Nitroanaline 309 — of growth 248, 292, 322, 403 Nucleation 141, 229, 241 — of interface control 371 Numbers — of nucleation 141 — Arnold 24, 66 Grashof 24, 297 Lasers Rayleigh 8 — of yttrium aluminate 363 Taylor 8 Lead — nitrate 1 Optoelectronic crystals 391 — telluride 24 Organic crystals 200, 309, 368, 393, 399, 407 — tin telluride 94 Lithium Perfection of crystals 1, 70, 79, 98, 221, 261, 322, 371 — niobate 215, 317 Periodic bond chain theory 329 Lysozyme 200 Phase diagrams — of diamond 271 Melt growth technique by Bridgman-—Stockbarger method — of mercury copper indium manganese telluride 381 control of 371 — of mercury silver indium manganese telluride 381 — of rare earth garnets 313 of cadmium fluoride 339 Phenomenological theory 271 of cadmium zinc telluride 261 Potassium using a centrifuge — titanyl phosphate 329 — analytical study of 111 Proteins 200, 407 of gallium antimonide 8 of immiscible alloys 152 of indium antimonide 8 Quantum wells /size effects of iron carbon alloys 141 — of zinc telluride /cadmium telluride 322 of lead telluride 24 of lead tin telluride 94 Sapphire 391 of semiconductors 66 Silicon 229, 241 — theory of 41 Sodium by Czochralski method — nitrate 281 — of lithium niobate 215, 317 Solution growth technique — of rare earth garnets 313 — by centrifugation over 1000g — of yttrium aluminate 363 — — of inclusion-free crystals 1 by floating zone method — by flux method — of sodium nitrate 281 — — of ferrogarnet 297 by gradient solidification method — — of potassium titanyl phosphate 329 — of sapphire 391 — — of yttrium barium cuprate 221, 403 by high gravity — by hanging drop vapor diffusion — of eutectic alloys 126 — — of virus 407 — of gallium arsenide 74 — by low temperature method by traveling heater method — — of ammonium dihydrogen phosphate 248 — — in centrifuge — — of m-nitroaniline 309 — — — of gallium antimonide 8 — — of organic crystals 368, 393 — — — of indium antimonide 8 Step 229, 241, 248, 329 418 Subject index Strain 261, 322 — — through metalorganic chemical vapor deposition Superconductivity 122, 221, 403 — — — of diamond 271, 345 — bulk 403 — — — of indium gallium aluminum phosphide 292 — ceramics 122 theory of 229, 241 — characterization 122, 221, 403 — crystal chemistry 403 Vapor diffusion crystallization — high T, 122, 221, 403 — under microgravity — phase relationships 122 — — of proteins 200 — stoichiometry 122 Vapor growth technique Supercooling, supersaturation 248, 303, 393, 403 — by chemical transport Superlattices 322 — — of trihalides of group Vz elements 303 Surface structure 229, 241, 329 by evaporation and condensation — in centrifuge Thermodynamics 271 — — — of germanium selenide 79 Thin film growth Virus 407 — by metalorganic molecular beam epitaxy — — of gallium arsenide 195 Yttrium — by molecular beam epitaxy — barium cuprate 221, 403 — — of zinc telluride /cadmium telluride superlattices 322 — by vapor phase epitaxy — — through evaporation and condensation Zinc — — — of organic crystals 399 — telluride 322

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