Linear magnetoresistance in metals: Guiding center diffusion in a smooth random potential
- Creators
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Song, Justin C. W.
- Refael, Gil
- Lee, Patrick A.
Abstract
We predict that guiding center (GC) diffusion yields a linear and nonsaturating (transverse) magnetoresistance in 3D metals. Our theory is semiclassical and applies in the regime where the transport time is much greater than the cyclotron period and for weak disorder potentials which are slowly varying on a length scale much greater than the cyclotron radius. Under these conditions, orbits with small momenta along magnetic field B are squeezed and dominate the transverse conductivity. When disorder potentials are stronger than the Debye frequency, linear magnetoresistance is predicted to survive up to room temperature and beyond. We argue that magnetoresistance from GC diffusion explains the recently observed giant linear magnetoresistance in 3D Dirac materials.
Additional Information
© 2015 American Physical Society. Received 30 July 2015; published 16 November 2015. We thank Adam Nahum and Brian Skinner for helpful discussions. J.C.W.S. acknowledges support from a Burke fellowship at Caltech. G.R. acknowledges support from the Packard Foundation and the Institute for Quantum Information and Matter (IQIM) an NSF funded physics frontier center, supported in part by the Moore Foundation. P.A.L. acknowledges the support of the DOE under Grant No. DE-FG01-03-ER46076 and the hospitality of the IQIM while this work was initiated.Attached Files
Published - PhysRevB.92.180204.pdf
Submitted - 1507.04730v1.pdf
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Additional details
- Alternative title
- Guiding center linear magnetoresistance in the semi-classical regime
- Eprint ID
- 61294
- Resolver ID
- CaltechAUTHORS:20151019-160221583
- Walter Burke Institute for Theoretical Physics, Caltech
- David and Lucile Packard Foundation
- Institute for Quantum Information and Matter (IQIM)
- NSF
- Gordon and Betty Moore Foundation
- DE-FG01-03-ER46076
- Department of Energy (DOE)
- Created
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2015-10-19Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field
- Caltech groups
- Institute for Quantum Information and Matter, Walter Burke Institute for Theoretical Physics