Unconventional multiband superconductivity with nodes in single-crystalline SrFe2(As_0.65P_0.35)2 as seen via 31P-NMR and specific heat

F. Engetsu; H. Kinouchi; H. Mukuda; M. Yashima; S. Miyasaka; S. Tajima; T. Dulguun; T. Kobayashi; Y. Kitaoka

arxiv: 1108.4480 · v2 · pith:M33OBFVWnew · submitted 2011-08-23 · ❄️ cond-mat.supr-con

Unconventional multiband superconductivity with nodes in single-crystalline SrFe2(As₀.65P₀.35)2 as seen via 31P-NMR and specific heat

T. Dulguun , H. Mukuda , T. Kobayashi , F. Engetsu , H. Kinouchi , M. Yashima , Y. Kitaoka , S. Miyasaka

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S. Tajima

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classification ❄️ cond-mat.supr-con

keywords stateunconventionalgaplessheatlargemultibandp-nmrresults

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We report 31P-NMR and specific heat measurements on an iron (Fe)-based superconductor SrFe2(As0.65P0.35)2 with Tc=26 K, which have revealed the development of antiferromagnetic correlations in the normal state and the unconventional superconductivity(SC) with nodal gap dominated by the gapless low-lying quasiparticle excitations. The results are consistently argued with an unconventional multiband SC state with the gap-size ratio of different bands being significantly large; the large full gaps in s\pm-wave state keep Tc high, whereas a small gap with a nodal-structure causes gapless feature under magnetic field. The present results will develop an insight into the strong material dependence of SC-gap structure in Fe-based superconductors.

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Unconventional multiband superconductivity with nodes in single-crystalline SrFe2(As₀.65P₀.35)2 as seen via 31P-NMR and specific heat

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