Author: ["A. Pourret","H. Aubin","J. Lesueur","C. A. Marrache-Kikuchi","L. Bergé","L. Dumoulin","K. Behnia"]
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Abstract
Long-range order is destroyed in a superconductor warmed above its critical temperature (Tc). However, amplitude fluctuations of the superconducting order parameter survive1 and lead to a number of well-established phenomena, such as paraconductivity2: an excess of charge conductivity due to the presence of short-lived Cooper pairs in the normal state. According to theory3, these pairs generate a transverse thermoelectric (Nernst) signal. In two dimensions, the magnitude of the expected signal depends only on universal constants and the superconducting coherence length, so the theory can be rigorously tested. Here, we present measurements of amorphous superconducting films of Nb0.15Si0.85. In this dirty superconductor, the lifetime of Cooper pairs exceeds the elastic scattering lifetime of quasiparticles in a wide temperature range above Tc and, consequently, their Nernst response dominates that generated by the normal electrons. We resolved a Nernst signal, which persists deep inside the normal state. Its amplitude is in excellent agreement with the theoretical prediction. This result provides an unambiguous case for a Nernst effect produced by short-lived Cooper pairs.
Cite this article
Pourret, A., Aubin, H., Lesueur, J. et al. Observation of the Nernst signal generated by fluctuating Cooper pairs. Nature Phys 2, 683–686 (2006). https://doi.org/10.1038/nphys413