Utane NagataDep. Electronic Science and Engineering, Kyoto Univ, Motomi AokiDep. Electronic Science and Engineering, Kyoto UnivCSRN-Kyoto, Akito DaidoGraduate School of Science, Kyoto Univ, Shigeru KasaharaOkayama Univ, Yuichi KasaharaGraduate School of Science, Kyoto Univ, Ryo OhshimaDep. Electronic Science and Engineering, Kyoto UnivCSRN-Kyoto, Yuichiro AndoDep. Electronic Science and Engineering, Kyoto UnivCSRN-Kyoto, Youichi YanaseCSRN-KyotoGraduate School of Science, Kyoto Univ, Yuji MatsudaGraduate School of Science, Kyoto Univ, Masashi ShiraishiDep. Electronic Science and Engineering, Kyoto UnivCSRN-Kyoto
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Field-free superconducting diode effect in layered superconductor FeSe
The superconducting diode effect (SDE), where zero-resistance states appear
nonreciprocally during current injection, is receiving tremendous interest in
both fundamental and applied physics because the SDE is a novel manifestation
of symmetry breaking and enables the creation of a novel diode without energy
loss. In particular, magnetic-field-free SDEs have been extensively
investigated because of their potential to serve as building blocks for
superconducting circuit technology. In this letter, we report the field-free
SDE in a layered superconductor, FeSe. Its underlying physics is clarified by
systematic controlled experiments to be an interplay of a large thermoelectric
response and geometrical asymmetry in FeSe. Our findings can pave a new avenue
for the construction of novel material and device platforms utilizing SDEs.
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