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The grasshopper effect in the diamond lattice

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dc.contributor.author Ків, Арнольд Юхимович
dc.contributor.author Соловйов, Володимир Миколайович
dc.date.accessioned 2017-07-07T18:56:48Z
dc.date.available 2017-07-07T18:56:48Z
dc.date.issued 1979-07-01
dc.identifier.citation Kiv A. E. The grasshopper effect in the diamond lattice / A. E. Kiv, V. N. Soloviev // physica status solidi (b). – 1979. – Volume 94, Issue 1. – Pp. K91-K95. uk
dc.identifier.issn 0370-1972
dc.identifier.uri http://elibrary.kdpu.edu.ua/handle/0564/1012
dc.identifier.uri https://doi.org/10.1002/pssb.2220940160
dc.description /1/ V.S. VAVILOV, A.E. KIV, and O.R. NIYAZOVA, phys. stat. sol. (a) 32, 11 (1975) /2/ L. S. SMIRNOVA (Ed.), Fizicheskie protsessy v obluchennikh poluprovodnikakh, Izd. Nauka, Novosibirsk 1977. /3/ G.D. WATKINS and R. P. MESSMER, in: Computational Methods for Large Molecules and Localized States in Solids, Ed. F. HERMAN, A.D. MC LEAN, and P. K. NESBET, Plenum Press, New York 1973 (p. 133). /4/ Z.A. ISKANDEROVA, A.E. KIV, A.A. MALKIN, and V.A. YANCHUK, Fiz. Tekh. Poluprov. 7, 9 (1973). /5/ A.E. KIV and V.N. SOLOVIEV, Fiz. Tekh. Poluprov. 11, 9 (1977). /6/ A. E. KIV, Pyatoe zasedanie postoyannogo seminara po modelirovaniyu radiatsionnikh i drugikh defektov v kristallakh, Tezisy dokladov, Krivoi Rog 1977 (p. 9). /7/ J.R. BEELER and H.H. YOSHIKAWA, Mater. Res. Stand. 11, 29 (1971). /8/ A.E. KIV and L.E. STIS, see /6/ (p. 36). /9/ G.I. USPENSKAYA and D.I. TETELBAUM, see /6/ (p. 69). /10/ R.A. SWALIN, J. Phys. Chem. Solids 18, 290 (1961).
dc.description.abstract The earlier notion of point defects in diamond-like crystals has by now undergone changes. The models of isolated vacancies and interstitials often prove inadequate for the interpretation of radiation effects. Theoretical and experimental results reveal new metastable configurations of point defects. A thorough investigation was carried out of the metastable configuration of point defects in silicon by means of the quantum-chemical simulation method. The cluster computation was carried out by an US-1020 computer. The accuracy of energy estimation is 0.1 eV. The cluster model was selected with regard to solving dynamic problems and constructing the potential pattern. A composite (quantum-classical) model of the diamond lattice cluster was elaborated. Two inner coordination spheres (17 atoms) were described quantum-mechanically in the two-centre approximation. Two external spheres (91 atoms in the cluster altogether) were described by means of classical potentials of the Morse type. The recovery of the defect configuration in the vicinity of B results in a rightward displacement of atom B and in the appearance of analogous defect configurations in the vicinity of B. There occurs a "jump-over" of the area with turned-about bonds, resembling the jump of a grasshopper ("grasshopper effect"). The grasshopper effect points to another possibility of migration of defect configurations in the diamond lattice. The migration of this kind is not longrange and cannot be regarded as ordinary traditional point defect. Nevertheless, this effect can be used for the interpretation of radiation-enhanced diffusion, migration of sub-threshold defects, and certain phenomena observed at Si implantation. uk
dc.language.iso en_US uk
dc.publisher Wiley–VCH uk
dc.subject grasshopper effect uk
dc.subject point defects uk
dc.subject diamond-like crystals uk
dc.subject radiation effects uk
dc.subject metastable configuration uk
dc.subject quantum-chemical simulation method uk
dc.subject cluster model uk
dc.subject diamond lattice cluster uk
dc.subject Morse potential uk
dc.subject migration of defect configurations uk
dc.subject radiation-enhanced diffusion uk
dc.subject migration of sub-threshold defects uk
dc.title The grasshopper effect in the diamond lattice uk
dc.type Article uk


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