Theory of c-axis Josephson tunneling in d-wave superconductors

A. Golubov; A. Hosseini; A.A. Tsvetkov; B. Dora; C. Bruder; C. Panagopoulos; C.C. Tsuei; D. Dimos; G.E. Blonder; H. Hilgenkamp; H. Won; Kazumi Maki; M. Pinteric; M.B. Gaifullin; M.J. Graf; P.J. Hirschfeld; Qiang Li; R.J. Radtke; Stephan Haas; T. Xiang; V. Ambegaokar; V. Ambegaokar; Y. Takano; Y. Takano; Y.S. Barash; Z.G. Ivanov

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Theory of c-axis Josephson tunneling in d-wave superconductors

Authors: A. Golubov
A. Hosseini
A.A. Tsvetkov
B. Dora
C. Bruder
C. Panagopoulos
C.C. Tsuei
D. Dimos
G.E. Blonder
H. Hilgenkamp
H. Won
Kazumi Maki
M. Pinteric
M.B. Gaifullin
M.J. Graf
P.J. Hirschfeld
Qiang Li
R.J. Radtke
Stephan Haas
T. Xiang
V. Ambegaokar
V. Ambegaokar
Y. Takano
Y. Takano
Y.S. Barash
Z.G. Ivanov
Publication date: 1 January 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The temperature and angular dependence of the c-axis Josephson current and the superfluid density in layered d-wave superconductors are studied within the framework of an extended Ambegaokar-Baratoff formalism. In particular, the effects of angle-dependent tunneling matrix elements and Andreev scattering at grain boundaries are taken into account. These lead to strong corrections of the low-temperature behavior of the plasma frequency and the Josephson current. Recent c-axis measurements on the cuprate high-temperature superconductors HgBa_2CaCu_{1+\delta} and Bi_2Sr_2CaCu_2O_{8+\delta} can therefore be interpreted to be consistent with a d-wave order parameter.Comment: Revtex, 4 pages with 4 eps figures, to appear in PRB R

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