Quasilinear quantum magnetoresistance in pressure-induced nonsymmorphic superconductor chromium arsenide.

Title Quasilinear quantum magnetoresistance in pressure-induced nonsymmorphic superconductor chromium arsenide.
Authors Q. Niu; W.C. Yu; K.Y. Yip; Z.L. Lim; H. Kotegawa; E. Matsuoka; H. Sugawara; H. Tou; Y. Yanase; S.K. Goh
Journal Nat Commun
DOI 10.1038/ncomms15358
Abstract

In conventional metals, modification of electron trajectories under magnetic field gives rise to a magnetoresistance that varies quadratically at low field, followed by a saturation at high field for closed orbits on the Fermi surface. Deviations from the conventional behaviour, for example, the observation of a linear magnetoresistance, or a non-saturating magnetoresistance, have been attributed to exotic electron scattering mechanisms. Recently, linear magnetoresistance has been observed in many Dirac materials, in which the electron-electron correlation is relatively weak. The strongly correlated helimagnet CrAs undergoes a quantum phase transition to a nonmagnetic superconductor under pressure. Here we observe, near the magnetic instability, a large and non-saturating quasilinear magnetoresistance from the upper critical field to 14?T at low temperatures. We show that the quasilinear magnetoresistance may arise from an intricate interplay between a nontrivial band crossing protected by nonsymmorphic crystal symmetry and strong magnetic fluctuations.

Citation Q. Niu; W.C. Yu; K.Y. Yip; Z.L. Lim; H. Kotegawa; E. Matsuoka; H. Sugawara; H. Tou; Y. Yanase; S.K. Goh.Quasilinear quantum magnetoresistance in pressure-induced nonsymmorphic superconductor chromium arsenide.. Nat Commun. 2017;8:15358. doi:10.1038/ncomms15358

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Arsenic

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