Strong-coupling Spin-singlet Superconductivity with Multiple Full Gaps in Hole-doped Ba$_{0.6}$K$_{0.4}$Fe$_2$As$_2$ Probed by Fe-NMR

A. Iyo; H. Eisaki; H. Kito; H. Mukuda; H. Nishimura; K. Kiho; K. Miyazawa; M. Yashima; P. M. Shirage; Y. Kitaoka

arxiv: 0905.1896 · v1 · submitted 2009-05-12 · ❄️ cond-mat.supr-con

Strong-coupling Spin-singlet Superconductivity with Multiple Full Gaps in Hole-doped Ba_(0.6)K_(0.4)Fe₂As₂ Probed by Fe-NMR

M. Yashima , H. Nishimura , H. Mukuda , Y. Kitaoka , K. Miyazawa , P. M. Shirage , K. Kiho , H. Kito

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H. Eisaki A. Iyo

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classification ❄️ cond-mat.supr-con

keywords statefe-nmrfullgapsmultiplenormalshiftspin

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We present $^{57}$Fe-NMR measurements of the novel normal and superconducting-state characteristics of the iron-arsenide superconductor Ba$_{0.6}$K$_{0.4}$Fe$_2$As$_2$ ($T_c$ = 38 K). In the normal state, the measured Knight shift and nuclear spin-lattice relaxation rate $(1/T_1)$ demonstrate the development of wave-number ($q$)-dependent spin fluctuations, except at $q$ = 0, which may originate from the nesting across the disconnected Fermi surfaces. In the superconducting state, the spin component in the $^{57}$Fe-Knight shift decreases to almost zero at low temperatures, evidencing a spin-singlet superconducting state. The $^{57}$Fe-$1/T_1$ results are totally consistent with a $s^\pm$-wave model with multiple full gaps, regardless of doping with either electrons or holes.

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Strong-coupling Spin-singlet Superconductivity with Multiple Full Gaps in Hole-doped Ba_(0.6)K_(0.4)Fe₂As₂ Probed by Fe-NMR

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