Singularity in the boundary resistance between superfluid $^4$He and a
  solid surface

A. Singsaas; B. I. Halperin; D. Frank; D. Frank; D. Frank; D. Murphy; Daniel Murphy; Edgar Genio; F. Zhong; Fengchuan Liu; G. Ahlers; G. Ahlers; G. Ahlers; G. Ahlers; Guenter Ahlers; H. Baddar; H. Baddar; H. Fu; H. Fu; H. Fu; Haiying Fu; Kerry Kuehn; L. D. Landau; M. N. Barber; R. V. Duncan; R. V. Duncan; Sarabjit Mehta; V. Dohm; V. Dohm; W. Y. Tam; Yuanming Liu

research

Singularity in the boundary resistance between superfluid $^4$ He and a solid surface

Authors: A. Singsaas
B. I. Halperin
D. Frank
D. Frank
D. Frank
D. Murphy
Daniel Murphy
Edgar Genio
F. Zhong
Fengchuan Liu
G. Ahlers
G. Ahlers
G. Ahlers
G. Ahlers
Guenter Ahlers
H. Baddar
H. Baddar
H. Fu
H. Fu
H. Fu
Haiying Fu
Kerry Kuehn
L. D. Landau
M. N. Barber
R. V. Duncan
R. V. Duncan
Sarabjit Mehta
V. Dohm
V. Dohm
W. Y. Tam
Yuanming Liu
Publication date: 4 August 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report new measurements in four cells of the thermal boundary resistance

R

between copper and

^4

He below but near the superfluid-transition temperature

T_\lambda

. For

10^{-7} \leq t \equiv 1 - T/T_\lambda \leq 10^{-4}

fits of

R = R_0 t^{x_b} + B_0

to the data yielded

x_b \simeq 0.18

, whereas a fit to theoretical values based on the renormalization-group theory yielded

x_b = 0.23

. Alternatively, a good fit of the theory to the data could be obtained if the {\it amplitude} of the prediction was reduced by a factor close to two. The results raise the question whether the boundary conditions used in the theory should be modified.Comment: 4 pages, 4 figures, revte

Similar works

Full text

Available Versions

Crossref

Last time updated on 02/01/2020