Strong correlation between H-linear magnetoresistance and strange metal in FeSe superconductor

Abstract

In strange metals, a strong and anomalous scattering effect exists and increases linearly with temperature. In FeSe, we observed that the temperature dependence of resistivity exhibits non-Fermi liquid behavior in two regions below and above a critical pressure, pc2 GPa. As pressure increases, a transition from quadratic to nonsaturating magnetoresistance is observed, with a distinct crossover between these two behaviors indicated by B* in the derivative analysis. After subtracting the quadratic term from the magnetoresistance, the residual magnetoresistance clearly exhibits an H-linear behavior. Additionally, two segments of H-inear magnetoresistance appear with increasing pressure, each arising from distinct origins. Notably, the two H-linear magnetoresistances exist and develop within the strange metal states. These results suggest that H-linear magnetoresistance is in strong correlation with the strange metal state, which may affect superconductivity in FeSe under pressure. Our study provides valuable insights into the strange metal state and clues for underlying unconventional superconductivity.

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