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Main Authors: Grozić, Petra Đurkas, Keran, Barbara, Kadigrobov, Anatoly M., Rukelj, Zoran, Kupčić, Ivan, Radić, Danko
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.10008
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author Grozić, Petra Đurkas
Keran, Barbara
Kadigrobov, Anatoly M.
Rukelj, Zoran
Kupčić, Ivan
Radić, Danko
author_facet Grozić, Petra Đurkas
Keran, Barbara
Kadigrobov, Anatoly M.
Rukelj, Zoran
Kupčić, Ivan
Radić, Danko
contents We evaluate the Hall coefficient characterising magnetotransport in an intercalated graphite CaC$_6$ with the Fermi surface reconstructed by an uniaxial charge density wave from closed pockets to open sheets. As the typical order parameter, corresponding to the pseudo-gap in electronic spectrum and consequently to spacing between electron trajectories in reciprocal space, is of the order of $10^2$K, magnetic breakdown in strong experimentally achievable fields of the order of 10T is inevitable. The classical expressions for the components of the magnetoconductivity tensor are strongly modified by magnetic field-assisted over-gap tunneling causing quantum interference. Due to magnetic breakdown, all magnetoconductivity components undergo strong quantum oscillations reflected in the Hall coefficient. In their nature, these are different than standard Shubnikov de Haas oscillations which would not appear in a system with an open Fermi surface.
format Preprint
id arxiv_https___arxiv_org_abs_2501_10008
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Hall Coefficient of the Intercalated Graphite CaC$_6$ in the Uniaxial CDW Ground State
Grozić, Petra Đurkas
Keran, Barbara
Kadigrobov, Anatoly M.
Rukelj, Zoran
Kupčić, Ivan
Radić, Danko
Mesoscale and Nanoscale Physics
We evaluate the Hall coefficient characterising magnetotransport in an intercalated graphite CaC$_6$ with the Fermi surface reconstructed by an uniaxial charge density wave from closed pockets to open sheets. As the typical order parameter, corresponding to the pseudo-gap in electronic spectrum and consequently to spacing between electron trajectories in reciprocal space, is of the order of $10^2$K, magnetic breakdown in strong experimentally achievable fields of the order of 10T is inevitable. The classical expressions for the components of the magnetoconductivity tensor are strongly modified by magnetic field-assisted over-gap tunneling causing quantum interference. Due to magnetic breakdown, all magnetoconductivity components undergo strong quantum oscillations reflected in the Hall coefficient. In their nature, these are different than standard Shubnikov de Haas oscillations which would not appear in a system with an open Fermi surface.
title Hall Coefficient of the Intercalated Graphite CaC$_6$ in the Uniaxial CDW Ground State
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2501.10008