Theory of NMR as a local probe for the electronic structure in the mixed state of the high-Tc cuprates
Abstract
We argue that nuclear magnetic resonance experiments are a site-sensitive probe for the electronic spectrum in the mixed state of the high-Tc cuprates. Within a spin-fermion model, we show that the Doppler-shifted electronic spectrum arising from the circulating supercurrent changes the low-frequency behavior of the imaginary part of the spin-susceptibility. For a hexagonal vortex lattice, we predict that these changes lead to (a) a unique dependence of the 63Cu spin lattice relaxation rate, 1/T1, on resonance frequency, and (b) a temperature dependence of T1 which varies with frequency. We propose a nuclear quadrupole experiment to study the effects of a uniform supercurrent on the electronic structure and predict that T1 varies with the direction of the supercurrent.
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