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Main Authors: Zeng, H. -X., Zhao, Q. -L., Zhang, P. -M., Horvathy, P. A.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.14329
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author Zeng, H. -X.
Zhao, Q. -L.
Zhang, P. -M.
Horvathy, P. A.
author_facet Zeng, H. -X.
Zhao, Q. -L.
Zhang, P. -M.
Horvathy, P. A.
contents The particle with first-order dynamics proposed by Dunne, Jackiw and Trugenberger (DJT) to justify the ``Peierls substitution" is obtained by reduction from both of the planar two-parameter centrally extended Galilean and Carroll systems. In the latter case the extension parameters $κ_{exo}$ and $κ_{mag}$ generate non-commutativity of the coordinates resp. behave as an internal magnetic field. The position and momentum follow uncoupled anomalous Hall motions. Consistently with partial immobility, one of the Carroll boost generators is broken but the other remains a symmetry. Switching off $κ_{exo}$, the immobility of unextended Carroll particles is recovered. The Carroll system is dual to an uncharged anyon on the horizon of a black hole which exhibits the spin-Hall effect. Physical applications are shortly reviewed.
format Preprint
id arxiv_https___arxiv_org_abs_2411_14329
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Peierls substitution and Hall motion in exotic Carroll dynamics
Zeng, H. -X.
Zhao, Q. -L.
Zhang, P. -M.
Horvathy, P. A.
High Energy Physics - Theory
Mathematical Physics
The particle with first-order dynamics proposed by Dunne, Jackiw and Trugenberger (DJT) to justify the ``Peierls substitution" is obtained by reduction from both of the planar two-parameter centrally extended Galilean and Carroll systems. In the latter case the extension parameters $κ_{exo}$ and $κ_{mag}$ generate non-commutativity of the coordinates resp. behave as an internal magnetic field. The position and momentum follow uncoupled anomalous Hall motions. Consistently with partial immobility, one of the Carroll boost generators is broken but the other remains a symmetry. Switching off $κ_{exo}$, the immobility of unextended Carroll particles is recovered. The Carroll system is dual to an uncharged anyon on the horizon of a black hole which exhibits the spin-Hall effect. Physical applications are shortly reviewed.
title Peierls substitution and Hall motion in exotic Carroll dynamics
topic High Energy Physics - Theory
Mathematical Physics
url https://arxiv.org/abs/2411.14329