Thermal properties of {sup 4}He surfaces and interfaces

Clements, B E; Krotscheck, E; Tymczak, C J

doi:10.1007/BF02397465

Title: Thermal properties of {sup 4}He surfaces and interfaces

Journal Article · Thu May 01 00:00:00 EDT 1997 · Journal of Low Temperature Physics

DOI:https://doi.org/10.1007/BF02397465· OSTI ID:535612

Clements, B E ^[1]; Krotscheck, E ^[2]; Tymczak, C J ^[3]

Los Alamos National Lab., NM (United States)
Johannes Kepler Universitaet Linz (Austria)
Clark Atlanta Univ., GA (United States)

A first-principle quantum statistical mechanical theory is used to study the properties of thick liquid {sup 4}He films absorbed to the weakly binding substrates: Li, Na, and Cs. Values for the liquid-gas and solid-liquid surface energies are determined. By fitting, at long wavelengths, the film`s lowest energy mode with the standard expression for the ripplon energy, which depends on the liquid-gas surface energy, the authors obtain excellent agreement with the liquid-vacuum surface energy from recent experiments and also the one previously extracted from quantum liquid droplet calculations. The full spectrum of excitations for wave vectors less than 0.50 {Angstrom}{sup {minus}1} is calculated using a dynamical correlated basis function theory developed in earlier work, which includes multi-phonon scattering processes. Particle currents and transition densities are used to elucidate the nature of the excitations. At a coverage of 0.40 {Angstrom}{sup {minus}2}, the lowest mode shows no significant substrate dependence, and is recognized as being a ripplon propagating in the liquid film at the liquid-gas surface. A new effect is observed for the Cs substrate; the second lowest mode is qualitatively different than found on the other substrates and is identified as interfacial ripplon. In the other substrates the second mode is a volume mode altered somewhat by the high density inner liquid layers. The linewidths of these modes are also calculated. The dynamic excitations provide the input for the thermodynamic theory and the effects on the free energy, heat capacity, and thermal surface broadening of these films are studied as function of the nature of the excitations, the number of modes, and variations in the substrate potentials.

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Sponsoring Organization:: USDOE

OSTI ID:: 535612

Journal Information:: Journal of Low Temperature Physics, Vol. 107, Issue 3-4; Other Information: PBD: May 1997

Country of Publication:: United States

Language:: English

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66 PHYSICS
HELIUM 4
SURFACE ENERGY
THERMODYNAMIC PROPERTIES
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EXCITATION
SUBSTRATES

Title: Thermal properties of {sup 4}He surfaces and interfaces

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