Summary
A simple form of transition metal model potential suggested by the authors has been used to investigate the phonon spectra of copper and silver. The results thus obtained show a fairly good agreement with the experimental ones.
Riassunto
Si è usata una semplice forma di potenziale modello per metalli di transizione, suggerita dagli autori, per studiare gli spettri fononici del rame e dell’argento. I risultati così ottenuti mostrano un accordo molto buono con i valori sperimentali.
Резюме
Предложенная авторами простая форма модельного потенциала переходных металлов используется для исследования фононных спектров меди и серебра. Полученные результаты довольно хорошо согласуются с экспериментальными данными.
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References
J. A. Moriarty:Phys. Rev. B,6, 1239 (1972).
A. O. E. Animalu:Phys. Rev. B,8, 3555 (1973).
S. Nand, B. B. Tripathi andH. C. Gupta:Phys. Lett.,53 A, 229 (1975).
S. Nand, N. Ramesh, B. B. Tripathi andH. C. Gupta:Solid State Comm.,17, 773 (1975).
E. Borchi andS. de Gennaro:Phys. Lett.,32 A, 301 (1970).
E. W. Kellermann:Phil. Trans. Roy. Soc.,238 A, 513 (1940).
S. H. Vosko:Phys. Lett.,13, 97 (1964).
S. K. Sinha:Phys. Rev.,143, 422 (1966).
W. A. Kamitakahara andB. N. Brockhouse:Phys. Lett.,29 A, 639 (1969).
G. Nilson andS. Rolandson:Phys. Rev. B,9, 3278 (1974).
E. C. Svensson, B. N. Brockhouse andJ. M. Rowe:Phys. Rev.,155, 619 (1967).
R. M. Nicklow, G. Gilat, H. G. Smith, L. J. Raubenheimer andM. K. Wilkinson:Phys. Rev.,164, 922 (1967).
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Nand, S., Tripathi, B.B. & Gupta, H.C. Lattice dynamics of noble metals using a pseudopotential approach. Nuov Cim B 41, 7–12 (1977). https://doi.org/10.1007/BF02726541
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DOI: https://doi.org/10.1007/BF02726541