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Signatures of the Berry curvature in the frequency dependent interlayer magnetoresistance in tilted magnetic fields

We show that in a layered metal, the angle dependent, finite frequency, interlayer magnetoresistance is altered due to the presence of a non-zero Berry curvature at the Fermi surface. At zero frequency, we find a conservation law which demands that the `magic angle' condition for interlayer magnetoresistance extrema as a function of magnetic field tilt angle is essentially both field and Berry curvature independent. In the finite frequency case, however, we find that surprisingly large signatures of a finite Berry curvature occur in the periodic orbit resonances. We outline a method whereby the presence and magnitude of the Berry curvature at the Fermi surface can be extracted.

preprint2013arXivOpen access
Anthony R. WrightRoss H. McKenzie
cond-mat.mes-hall
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Anthony R. WrightRoss H. McKenzie

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