Network patterns and strength of orbital currents in layered cuprates

Abstract

In a frame of the t-J-G model we derive the microscopical expression for the circulating orbital currents in layered cuprates using the anomalous correlation functions. In agreement with μ-on spin relaxation (μSR), nuclear quadrupolar resonance (NQR) and inelastic neutron scattering(INS) experiments in YBa2Cu3O6+x we successfully explain the order of magnitude and the monotonous increase of the internal magnetic fields resulting from these currents upon cooling. However, the jump in the intensity of the magnetic fields at Tc reported recently seems to indicate a non-mean-field feature in the coexistence of current and superconducting states and the deviation of the extended charge density wave vector instability from its commensurate value Q≈(π,π) in accordance with the reported topology of the Fermi surface.

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