Phonon-Phonon Interactions in Liquid Helium II

1 August 1970

journal article
research article
Published by American Physical Society (APS) in Physical Review A

Vol. 2 (2) , 497-518
https://doi.org/10.1103/physreva.2.497

Abstract

The quantum hydrodynamics of Landau is here regarded as a means of calculating phonon-phonon interactions in liquid helium II. This theory is tested by applying it to the low-density Bose-Einstein gas, at low temperatures and long wavelengths, it agrees with the microscopic theory of the Bose-Einstein gas. This agreement justifies the past use of the hydrodynamic theory to calculate the Landau-Rumer sound absorption in liquid helium; however, the calculated absorption is roughly half that measured by Abraham, Eckstein, Ketterson, Kuchnir, and Vignos. Hence the higher-order terms in the hydrodynamic theory are considered; they probably cannot account for the discrepancy.

Keywords

This publication has 30 references indexed in Scilit:

Velocity of Sound, Density, and Grüneisen Constant in Liquid ${}^{4}{He}$
Physical Review A, 1970
Sound Propagation in Liquid ${}^{4}{He}$
Physical Review B, 1969
Three-Phonon Process and the Propagation of Sound in Liquid Helium-4
Physical Review Letters, 1967
On the Mutual Interaction of Parallel Phonons
Proceedings of the Physical Society, 1963
Concept of Off-Diagonal Long-Range Order and the Quantum Phases of Liquid He and of Superconductors
Reviews of Modern Physics, 1962
Sound Attenuation in Liquid Helium II at Very Low Temperatures
Progress of Theoretical Physics, 1961
Temperature Dependence of the Low-Momentum Excitations in a Bose Gas of Hard Spheres
Physical Review B, 1960
Eigenvalues and Eigenfunctions of a Bose System of Hard Spheres and Its Low-Temperature Properties
Physical Review B, 1957
Bose-Einstein Condensation and Liquid Helium
Physical Review B, 1956
Sopra lo Spostamento per Pressione delle Righe Elevate delle Serie Spettrali
Il Nuovo Cimento (1869-1876), 1934