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Nernst effect and diamagnetism in phase fluctuating superconductors

Abstract

When a superconductor is warmed above its critical temperature TcT_c, long range order is destroyed by fluctuations in the order parameter. These fluctuations can be probed by measurements of conductivity, diamagnetism, and of the Nernst effect. Here, we study a regime where superconductivity is destroyed by phase fluctuations arising from a dilute liquid of mobile vortices. We find that the Nernst effect and diamagnetic response differ significantly from Gaussian fluctuations -- in particular, a much sharper decay with temperature is obtained. We predict a rapid onset of Nernst signal at a temperature Tonset_{\rm onset} that tracks TcT_c, rather than the pairing temperature. We also predict a close quantitative connection with diamagnetism -- the ratio of magnetization to transverse thermoelectric conductivity Ξ±xy\alpha_{xy} reaches a universal value at high temperatures. We interpret Nernst effect measurements on the underdoped cuprates in terms of a dilute vortex liquid over a wide temperature range above TcT_c.Comment: 4 pages, 4 figures; (v2) acknowledgments adde

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    Last time updated on 02/01/2020