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Probing nodeless superconductivity in LaMSi (M = Ni, Pt) using muon-spin rotation and relaxation

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arxiv 2006.12172 v1 pith:N4VVFTYN submitted 2020-06-22 cond-mat.supr-con

Probing nodeless superconductivity in LaMSi (M = Ni, Pt) using muon-spin rotation and relaxation

classification cond-mat.supr-con
keywords superconductivitymeasurementsbeencouplinglamsimuon-spinrelaxationrotation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Systems with strong spin-orbit coupling have been a topic of fundamental interest in condensed matter physics due to the exotic topological phases and the unconventional phenomenon they exhibit. In this particular study, we have investigated the superconductivity in the transition-metal ternary noncentrosymmetric compounds LaMSi (M = Ni, Pt) with different spin-orbit coupling strength, using muon-spin rotation and relaxation measurements. Transverse-field measurements made in the vortex state indicate that the superconductivity in both materials is fully gapped, with a conventional s-wave pairing symmetry and BCS-like magnitudes for the zero-temperature gap energies. Zero field measurements suggest a time-reversal symmetry preserved superconductivity in both the systems, though a small increase in muon depolarization is observed upon decreasing temperature. However, this has been attributed to quasi-static magnetic fluctuations.

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