Related papers: Theoretical model for the extreme positive magnetoresistance

Theoretical model for the extreme positive magnetoresistance

URL: http://arxiv.org/abs/2306.07020v1
Date: Mon, 12 Jun 2023 10:52:14 GMT
Title: Theoretical model for the extreme positive magnetoresistance
Authors: George Kastrinakis
Abstract summary: We present a model for the positive extreme magnetoresistance (XMR) recently observed in a plethora of metallic systems. The model is an extension of our earlier work on positive giant magnetoresistance, and uses an elaborate diagrammatic formulation.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We present a model for the positive extreme magnetoresistance (XMR), recently observed in a plethora of metallic systems, such as PtSn$_4$, PtBi$_2$, PdCoO$_2$, WTe$_2$, NbSb$_2$, NbP, TaSb$_2$, LaSb, LaBi, ZrSiS and MoTe$_2$. The model is an extension of our earlier work on positive giant magnetoresistance, and uses an elaborate diagrammatic formulation. XMR is a bulk effect (not a surface effect), due to the dramatic sensitivity of the conductivity to the finite magnetic field $H$. This is possible at low temperatures, in the presence of finite disorder elastic spin scattering, and for a special value, predicted from the theory, of the material-dependent effective Coulomb repulsion. Good agreement with experiments is obtained. According to our model XMR is higher in cleaner samples, and anisotropic with regards to the direction of $H$. We discuss in particular compounds containing the elements Pt, Sc, and Rh.

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