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Nodeless time-reversal symmetry breaking in the centrosymmetric superconductor Sc₅Co₄Si₁₀ probed by muon-spin spectroscopy

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arxiv 2205.09609 v1 pith:VKG37HWX submitted 2022-05-19 cond-mat.supr-con cond-mat.mtrl-scicond-mat.str-el

Nodeless time-reversal symmetry breaking in the centrosymmetric superconductor Sc₅Co₄Si₁₀ probed by muon-spin spectroscopy

classification cond-mat.supr-con cond-mat.mtrl-scicond-mat.str-el
keywords mathrmmuon-spinsuperconductingsymmetrybreakingdensityrelaxationtemperature
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate the superconducting properties of Sc$_{5}$Co$_{4}$Si$_{10}$ using low-temperature resistivity, magnetization, heat capacity, and muon-spin rotation and relaxation ($\mu$SR) measurements. We find that Sc$_{5}$Co$_{4}$Si$_{10}$ {exhibits type-II} superconductivity with a superconducting transition temperature $T_\mathrm{C}= 3.5 (1)$\,K. The temperature dependence of the superfluid density obtained from transverse-field $\mu$SR spectra is best modeled using an isotropic Bardeen-Cooper-Schrieffer type $s$-wave gap symmetry with $2\Delta/k_\mathrm{B}T_\mathrm{C} = 2.84(2)$. However, the zero-field muon-spin relaxation asymmetry reveals the appearance of a spontaneous magnetic field below $T_\mathrm{C}$, indicating that time-reversal symmetry (TRS) is broken in the superconducting state. Although this behavior is commonly associated with non-unitary or mixed singlet-triplet pairing, our group-theoretical analysis of the Ginzburg-Landau free energy alongside density functional theory calculations indicates that unconventional mechanisms are pretty unlikely. Therefore, we have hypothesized that TRS breaking may occur via a conventional electron-phonon process.

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