Dynamic and thermodynamic properties of strongly anharmonic cubic crystals in the self-consistent phonon theory

Janusz Tomaszewski; Cecylia Malinowska-Adamska

doi:10.1117/12.224956

16 October 1995 Dynamic and thermodynamic properties of strongly anharmonic cubic crystals in the self-consistent phonon theory

Janusz Tomaszewski, Cecylia Malinowska-Adamska

Author Affiliations +

Proceedings Volume 2373, Solid State Crystals: Materials Science and Applications; (1995) https://doi.org/10.1117/12.224956
Event: Solid State Crystals: Materials Science and Applications, 1994, Zakopane, Poland

Abstract

On the basis of the reduced second-order self-consistent phonon approximation, based on the Green's functions method, the temperature and pressure variations of the dynamic and thermodynamic functions of strongly anharmonic crystals are computed and compared with experimental and other theoretical data. The system of self-consistent equations is solved for the generalized form of the Lennard-Jones (n,m) interatomic potential.

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Janusz Tomaszewski and Cecylia Malinowska-Adamska "Dynamic and thermodynamic properties of strongly anharmonic cubic crystals in the self-consistent phonon theory", Proc. SPIE 2373, Solid State Crystals: Materials Science and Applications, (16 October 1995); https://doi.org/10.1117/12.224956

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