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Superconducting gap structure in ambient-pressure-grown mathrm{LaO_(0.5)F_(0.5)BiS₂}

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arxiv 1611.04726 v1 pith:OQ5BRCHV submitted 2016-11-15 cond-mat.supr-con

Superconducting gap structure in ambient-pressure-grown mathrm{LaO_(0.5)F_(0.5)BiS₂}

classification cond-mat.supr-con
keywords mathrmdeltaambient-pressure-growndepthmagneticmeasurementsmodelmultigap
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We have performed transverse-field muon spin relaxation (TF-$\mu$SR) measurements on ambient-pressure-grown polycrystalline $\mathrm{LaO_{0.5}F_{0.5}BiS_{2}}$. From these measurements, no signature of magnetic order is found down to 25 mK. The value of the magnetic penetration depth extrapolated to 0 K is 0.89 (5) $\mu$m. The temperature dependence of superconducting penetration depth is best described by either a multigap s + s-wave model with $\Delta_{1}$ = 0.947 (7) meV and $\Delta_{2}$ = 0.22 (4) meV or the ansiotropic s-wave model with $\Delta(0)$ = 0.776 meV and anisotropic gap amplitude ratio $\Delta_{min}/\Delta_{max}$ = 0.34. Comparisons with other potentially multigap $\mathrm{BiS_{2}}$-based superconductors are discussed. We find that these $\mathrm{BiS_{2}}$-based superconductors, including $\mathrm{Bi_{4}O_{4}S_3}$ and the high-pressure synthesized $\mathrm{LaO_{0.5}F_{0.5}BiS_{2}}$, generally conform to the Uemura relation.

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