Theory of Anisotropic Hopping Transport due to Spiral Correlations in the Spin-Glass Phase of Underdoped Cuprates

Abstract

We study the in-plane resistivity anisotropy in the spin-glass phase of the high-Tc cuprates, on the basis of holes moving in a spiral spin background. This picture follows from analysis of the extended t-J model with Coulomb impurities. In the variable-range hopping regime the resistivity anisotropy is found to have a maximum value of around 90%, and it decreases with temperature, in excellent agreement with experiments in La2-xSrxCuO4. In our approach the transport anisotropy is due to the non-collinearity of the spiral spin state, rather than an intrinsic tendency of the charges to self-organize.

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