Origin of Magnetoresistance Anomalies in Antiferromagnetic YBa2Cu3O6+x
Abstract
Specific d-wave angular dependence of the in-plane magnetoresistence in antiferromagnetic tetragonal YBa2Cu3O6+x (x~0.3) on orientation of the external magnetic field in (a,b) plane is assigned to the effective hole transport through low lying excited purely oxygen doublet O2peu state, not the ground b1g(dx2-y2) state. External magnetic field determines the orientation of the strong exchange field for the spin-triplet b1geu:3Eu state of the hole CuO4 center and due to the spin-orbital coupling results in either orbital polarization of the Eu doublet giving rise to the spatial anisotropy of the hole transport. Experimental data allow to estimate parameter of the effective spin Hamiltonian.
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