Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
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Develops a microscopic theory for optical sensitivity under coherent illumination in turbid media, demonstrating that phase conjugation maximizes local sensitivity while remission eigenchannels provide global enhancement compatible with existing DOT algorithms.
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Spin Hall effect in electronic L\'evy glasses: Enhanced spin current generation in the superdiffusive regime
Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
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Harnessing coherent-wave control for sensing applications
Develops a microscopic theory for optical sensitivity under coherent illumination in turbid media, demonstrating that phase conjugation maximizes local sensitivity while remission eigenchannels provide global enhancement compatible with existing DOT algorithms.