Heat Transport in a Strongly Overdoped Cuprate: Fermi Liquid and Pure
  d-wave BCS Superconductor

A. Carrington; A. Carrington; A. P. Mackenzie; Cyril Proust; Etienne Boaknin; K. Behnia; L. Taillefer; Louis Taillefer; M. J. Kearney; P. W. Anderson; R. W. Hill; S. Kambe; Y. Sun

research

Heat Transport in a Strongly Overdoped Cuprate: Fermi Liquid and Pure d-wave BCS Superconductor

Authors: A. Carrington
A. Carrington
A. P. Mackenzie
Cyril Proust
Etienne Boaknin
K. Behnia
L. Taillefer
Louis Taillefer
M. J. Kearney
P. W. Anderson
R. W. Hill
S. Kambe
Y. Sun
Publication date: 1 January 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The transport of heat and charge in the overdoped cuprate superconductor Tl_2Ba_2CuO_(6+delta) was measured down to low temperature. In the normal state, obtained by applying a magnetic field greater than the upper critical field, the Wiedemann-Franz law is verified to hold perfectly. In the superconducting state, a large residual linear term is observed in the thermal conductivity, in quantitative agreement with BCS theory for a d-wave superconductor. This is compelling evidence that the electrons in overdoped cuprates form a Fermi liquid, with no indication of spin-charge separation.Comment: 4 pages, 2 figures, published version, title changed, Phys. Rev. Lett. 89, 147003 (2002