A comparative study on the influence of intra- and inter-valley scattering to Hall conductivity of Dirac semimetals

Within the theoretical framework of Kubo linear response theory as well as the self-consistent Born approximation(SCBA), we perform a comparative study about the Hall conductivities of a Dirac semimetal(DSM) subject to, respectively, the intra- and inter-valley scattering. By calculating the Hall co...

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Published inSolid state communications Vol. 334-335; p. 114266
Main Authors Feng, Lanting, Ma, Tiancheng, Zheng, Yisong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2021
Subjects
Dirac semimetal
Hall conductivity
Self-consistent born approximation
Dirac semimetal
Hall conductivity
Self-consistent born approximation
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Abstract Within the theoretical framework of Kubo linear response theory as well as the self-consistent Born approximation(SCBA), we perform a comparative study about the Hall conductivities of a Dirac semimetal(DSM) subject to, respectively, the intra- and inter-valley scattering. By calculating the Hall conductivity as a function of Fermi level, we find that when the Fermi level lies in the region around the Dirac node, the Hall conductivities between the two cases, i.e. subject to intra- and inter-valley scattering respectively, do not show appreciable difference, regardless of the scattering strength. As the Fermi level goes away from the Dirac node, the Hall conductivity in the case of inter-valley scattering is smaller than that in the case of intra-valley scattering if the scattering has relatively weak or moderate strength. In contrast, as scattering strength increases further, the Hall conductivity spectra between the two cases look almost identical no matter whether the Fermi level is close to or far away from the Dirac node. The underlying physics of these numerical results is that the Fermi surface has nontrivial contribution to the Hall conductivity in the case of weak or moderate scattering. However, in the case of strong scattering, it becomes much smaller than the contribution arising from all the occupied states. In addition, our study indicates that the cone tilt brings about the effective enhancement of Hall conductivity of DSMs. •For the cases of weak or moderate scattering, the Hall conductivity in the case of intra-valley scattering is almost indistinguishable from that of inter-valley scattering around the Dirac node. However, as the Fermi level goes away from the Dirac node, they becomes appreciably different.•As scattering strength increases further, the difference between the two kinds of Hall conductivity becomes indistinguishable no matter whether the Fermi level is close to or far away from the Dirac node.•The cone tilt brings about a sizable enhancement of Hall conductivity of DSMs for both intra- and inter-valley scattering.
AbstractList Within the theoretical framework of Kubo linear response theory as well as the self-consistent Born approximation(SCBA), we perform a comparative study about the Hall conductivities of a Dirac semimetal(DSM) subject to, respectively, the intra- and inter-valley scattering. By calculating the Hall conductivity as a function of Fermi level, we find that when the Fermi level lies in the region around the Dirac node, the Hall conductivities between the two cases, i.e. subject to intra- and inter-valley scattering respectively, do not show appreciable difference, regardless of the scattering strength. As the Fermi level goes away from the Dirac node, the Hall conductivity in the case of inter-valley scattering is smaller than that in the case of intra-valley scattering if the scattering has relatively weak or moderate strength. In contrast, as scattering strength increases further, the Hall conductivity spectra between the two cases look almost identical no matter whether the Fermi level is close to or far away from the Dirac node. The underlying physics of these numerical results is that the Fermi surface has nontrivial contribution to the Hall conductivity in the case of weak or moderate scattering. However, in the case of strong scattering, it becomes much smaller than the contribution arising from all the occupied states. In addition, our study indicates that the cone tilt brings about the effective enhancement of Hall conductivity of DSMs. •For the cases of weak or moderate scattering, the Hall conductivity in the case of intra-valley scattering is almost indistinguishable from that of inter-valley scattering around the Dirac node. However, as the Fermi level goes away from the Dirac node, they becomes appreciably different.•As scattering strength increases further, the difference between the two kinds of Hall conductivity becomes indistinguishable no matter whether the Fermi level is close to or far away from the Dirac node.•The cone tilt brings about a sizable enhancement of Hall conductivity of DSMs for both intra- and inter-valley scattering.
ArticleNumber 114266
Author Zheng, Yisong
Ma, Tiancheng
Feng, Lanting
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Self-consistent born approximation
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Snippet Within the theoretical framework of Kubo linear response theory as well as the self-consistent Born approximation(SCBA), we perform a comparative study about...
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SubjectTerms Dirac semimetal
Hall conductivity
Self-consistent born approximation
Title A comparative study on the influence of intra- and inter-valley scattering to Hall conductivity of Dirac semimetals
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