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W4313304717 abstract "A recent study [S. Yoshizawa {it et al}., Nature Communications {bf 12}, 1462 (2021)] reported the occurrence of field-resilient superconductivity, that is, enhancement of the in-plane critical magnetic field $H^{||}_{rm c2}$ beyond the paramagnetic limiting field, in atomic-layer crystalline ($sqrt{7}timessqrt{3}$)-In on a Si(111) substrate. The present article elucidates the origin of the observed field-resilient noncentrosymmetric superconductivity in this highly crystalline two-dimensional material. We develop the quasiclassical theory of superconductivity by incorporating the Fermi surface anisotropy together with an anisotropic spin splitting and texture specific to atomic-layer crystalline systems. In Si(111)-($sqrt{7}timessqrt{3}$)-In, a typical material with a large antisymmetric spin-orbit coupling (ASOC), we show an example where the combination of the ASOC and disorder effect suppresses the paramagnetic depairing and can lead to an enhancement of $H^{||}_{rm c2}$ compared to an isotropic system only when a magnetic field is applied in a particular direction due to an anisotropic spin texture. We also study the parity-mixing effect to demonstrate that the enhancement of $H^{||}_{rm c2}$ is limited in the moderately clean regime because of the fragile $s$+$p$-wave pairing against nonmagnetic scattering in the case of the dominant odd-parity component of a pair wavefunction. Furthermore, from analysis of the transition line, we identify the field-resilience factor taking account of the scattering and suppression of paramagnetic effects and discuss the origin of the field-resilient superconductivity. Through fitting of the $H^{||}_{rm c2}$ data, the normal-state electron scattering is discussed with a prime focus on the role of atomic steps on a Si(111) surface." @default.
W4313304717 created "2023-01-06" @default.
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W4313304717 date "2022-12-26" @default.
W4313304717 modified "2023-09-26" @default.
W4313304717 title "Field resilient superconductivity in atomic layer crystalline materials" @default.
W4313304717 doi "https://doi.org/10.1103/physrevb.108.064504" @default.
W4313304717 hasPublicationYear "2022" @default.
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