"Spin-Flop" Transition and Anisotropic Magnetoresistance in Pr_{1.3-x}La_{0.7}Ce_{x}CuO₄: Unexpectedly Strong Spin-Charge Coupling in Electron-Doped Cuprates

A. N. Lavrov , H. J. Kang , Y. Kurita , T. Suzuki , Seiki Komiya , J. W. Lynn , S.-H. Lee , Pengcheng Dai

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Yoichi Ando

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords electron-dopedcollinearcouplingcupratesmagnetoresistancespinspin-chargestrong

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We use transport and neutron-scattering measurements to show that a magnetic-field-induced transition from noncollinear to collinear spin arrangement in adjacent CuO_{2} planes of lightly electron-doped Pr_{1.3-x}La_{0.7}Ce_{x}CuO_{4} (x=0.01) crystals affects significantly both the in-plane and out-of-plane resistivity. In the high-field collinear state, the magnetoresistance (MR) does not saturate, but exhibits an intriguing four-fold-symmetric angular dependence, oscillating from being positive at B//[100] to being negative at B//[110]. The observed MR of more than 30% at low temperatures induced by a modest modification of the spin structure indicates an unexpectedly strong spin-charge coupling in electron-doped cuprates.

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"Spin-Flop" Transition and Anisotropic Magnetoresistance in Pr_{1.3-x}La_{0.7}Ce_{x}CuO₄: Unexpectedly Strong Spin-Charge Coupling in Electron-Doped Cuprates

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