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Universal bound to the amplitude of the vortex Nernst signal in superconductors

A liquid of superconducting vortices generates a transverse thermoelectric response. This Nernst signal has a tail deep in the normal state due to superconducting fluctuations. Here, we present a study of the Nernst effect in two-dimensional hetero-structures of Nb-doped strontium titanate (STO) and in amorphous MoGe. The Nernst signal generated by ephemeral Cooper pairs above the critical temperature has the magnitude expected by theory in STO. On the other hand, the peak amplitude of the vortex Nernst signal below $T_c$ is comparable in both and in numerous other superconductors despite the large distribution of the critical temperature and the critical magnetic fields. In four superconductors belonging to different families, the maximum Nernst signal corresponds to an entropy per vortex per layer of $\approx$ k$_Bln2$.

preprint2021arXivOpen access
Carl Willem RischauYuke LiBenoît FauquéHisashi InoueMinu KimChristopher BellHarold Y. HwangAharon KapitulnikKamran Behnia
cond-mat.supr-concond-mat.str-el
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Carl Willem RischauYuke LiBenoît FauquéHisashi InoueMinu KimChristopher BellHarold Y. HwangAharon KapitulnikKamran Behnia

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