Competing effects of mass anisotropy and spin Zeeman coupling on the
  upper critical field of a mixed $d$- and s-wave superconductor

A.M. Clongston; B.S. Chandrasekhar; C. S. Ting; C.T. Rieck; D.J. Scalapino; D.J. Van Harlingen; E. Helfand; G. Eilenberger; G. Yin; H. Nakagawa; J.-H. Xu; J.L. O’Brien; Jian-Xin Zhu; M. Sigrist; M. Tinkham; N.R. Werthamer; U. Welp; V.Z. Kresin; W. Belzig; W. Kim; W.A. Atkinson; Wonkee Kim

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Competing effects of mass anisotropy and spin Zeeman coupling on the upper critical field of a mixed $d$ - and s-wave superconductor

Authors: A.M. Clongston
B.S. Chandrasekhar
C. S. Ting
C.T. Rieck
D.J. Scalapino
D.J. Van Harlingen
E. Helfand
G. Eilenberger
G. Yin
H. Nakagawa
J.-H. Xu
J.L. O’Brien
Jian-Xin Zhu
M. Sigrist
M. Tinkham
N.R. Werthamer
U. Welp
V.Z. Kresin
W. Belzig
W. Kim
W.A. Atkinson
Wonkee Kim
Publication date: 1 November 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Based on the linearized Eilenberger equations, the upper critical field

(H_{c2})

of mixed d- and s-wave superconductors has been microscopically studied with an emphasis on the competing effects of mass anisotropy and spin Zeeman coupling. We find the mass anisotropy always enhance

H_{c2}

while the Zeeman interaction suppresses

H_{c2}

. As required by the thermodynamics, we find

H_{c2}

is saturated at zero temperature. We compare the theoretical calculations with recent experimental data of YBa

_{2}

Cu

_{3}

O

_{7-+AFw-delta}

.Comment: To appear in PRB in Feb. 200

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