Magnetotransport in overdoped La2-xSrxCuO4: a Fermi liquid approach
Abstract
Recently, several experiments on La2-xSrxCuO4 (LSCO) challenged the Fermi liquid picture for overdoped cuprates, and stimulated intensive debates [1]. In this work, we study the magnetotransport phenomena in such systems based on the Fermi liquid assumption. The Hall coefficient RH and magnetoresistivity xx are investigated near the van Hove singularity x≈0.2 across which the Fermi surface topology changes from hole- to electron-like. Our main findings are: (1) RH depends on the magnetic field B and drops from positive to negative values with increasing B in the doping regime x<x0.3; (2) xx grows up as B2 at small B and saturates at large B, while in the transition regime a "nearly linear" behavior shows up. Our results can be further tested by future magnetotransport experiments in the overdoped LSCO.
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