Approximate tight-binding sum rule for the superconductivity related
  change of c-axis kinetic energy in multilayer cuprate superconductors

A.A. Tsvetkov; A.V. Boris; C. Bernhard; C.C. Homes; Christian Bernhard; D. Munzar; D. Munzar; D. van der Marel; D. van der Marel; D.N. Basov; D.N. Basov; Dominik Munzar; H.J.A. Molegraaf; J.E. Hirsch; J.W. Loram; K.A. Moler; M. Grüninger; P.W. Anderson; P.W. Anderson; S. Chakravarty; Todd Holden; V. Železný

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Approximate tight-binding sum rule for the superconductivity related change of c-axis kinetic energy in multilayer cuprate superconductors

Authors: A.A. Tsvetkov
A.V. Boris
C. Bernhard
C.C. Homes
Christian Bernhard
D. Munzar
D. Munzar
D. van der Marel
D. van der Marel
D.N. Basov
D.N. Basov
Dominik Munzar
H.J.A. Molegraaf
J.E. Hirsch
J.W. Loram
K.A. Moler
M. Grüninger
P.W. Anderson
P.W. Anderson
S. Chakravarty
Todd Holden
V. Železný
Publication date: 22 July 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present an extension of the c-axis tight-binding sum rule discussed by Chakravarty, Kee, and Abrahams [Phys. Rev. Lett. 82, 2366 (1999)] that applies to multilayer high-Tc cuprate superconductors (HTCS) and use it to estimate--from available infrared data--the change below Tc of the c-axis kinetic energy, Hc, in YBa2Cu3O(7-delta) (delta=0.45,0.25,0.07), Bi2Sr2CaCu2O8, and Bi2Sr2Ca2Cu3O10. In all these compounds Hc decreases below Tc and except for Bi2Sr2CaCu2O8 the change of Hc is of the same order of magnitude as the condensation energy. This observation supports the hypothesis that in multilayer HTCS superconductivity is considerably amplified by the interlayer tunnelling mechanism.Comment: 6 pages, 2 figure

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