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Thermodynamics of dilute ³He –⁴He solid solutions with hcp structure

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dc.contributor.author Chishko, K.A.
dc.date.accessioned 2021-02-02T19:19:41Z
dc.date.available 2021-02-02T19:19:41Z
dc.date.issued 2018
dc.identifier.citation Thermodynamics of dilute ³He –⁴He solid solutions with hcp structure / K.A. Chishko // Физика низких температур. — 2018. — Т. 44, № 2. — С. 154-167. — Бібліогр.: 80 назв. — англ. uk_UA
dc.identifier.issn 0132-6414
dc.identifier.other PACS: 67.80.B–, 05.70.–a, 61.72.Nn
dc.identifier.uri http://dspace.nbuv.gov.ua/handle/123456789/175788
dc.description.abstract To interpret the anomalies in heat capacity CV (T) and temperature-dependent pressure P(T) of solid hexagonal close-packed (hcp) ⁴He we exploit the model of hcp crystalline polytype with specific lattice degrees of freedom anddescribe the thermodynamics of impurity-free ⁴He solid as superposition of phononic and polytypic contributions.The hcp-based polytype is a stack of 2D basal atomic monolayers on triangular lattice packed with arbitrary long (up to infinity) spatial period along the hexagonal c axis perpendicular to the basal planes. It is a crystal with perfect ordering along the layers, but without microscopic translational symmetry in perpendicular direction (which remains, nevertheless, the rotational crystallographic axis of third order, so that the polytype can be considered as semidisordered system). Each atom of the hcp polytype has twelve crystallographic neighbors in both first and second co-ordination spheres at any arbitrary packing order. It is shown that the crystal of such structure behaves as anisotropic elastic medium with specific dispersion law of phonon excitations along c axis. The free energy and the heat capacity consist of two terms: one of them is a normal contribution (with CV (T) ~ T³) from phonon excitations in an anisotropic lattice of hexagonal symmetry, and another term (an “excessive” heat) is a contribution resulted by packing entropy from quasi-one-dimensional system of 2D basal planes on triangular lattice stacked randomly along c axis without braking the closest pack between neighboring atomic layers. The excessive part of the free energy has been treated within 1D quasi-Ising (lattice gas) model using the transfer matrix approach. This model makes us possible to interpret successfully the thermodynamic anomaly (heat capacity peak in hcp ⁴He) observed experimentally. uk_UA
dc.language.iso ru uk_UA
dc.publisher Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України uk_UA
dc.relation.ispartof Физика низких температур
dc.subject Квантовые жидкости и квантовые кpисталлы uk_UA
dc.title Thermodynamics of dilute ³He –⁴He solid solutions with hcp structure uk_UA
dc.type Article uk_UA
dc.status published earlier uk_UA


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