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Autores principales: Ku, Wei, Hegg, Anthony
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2401.08576
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author Ku, Wei
Hegg, Anthony
author_facet Ku, Wei
Hegg, Anthony
contents The hunt for exotic properties in flowing systems is a popular and active field of study, and has recently gained renewed attention through claims such as a ``segmented Fermi surface'' in a superconducting system that hosts steady superflow of screening current driven by an external field. Apart from this excitement and the promise of hosting Majorana zero modes, claims such as this imply exotic gap-to-gapless quantum phase transitions merely through boost of inertial frames of observation, and challenge the very concept behind the principle of relative motion. Here, we first illustrate an obvious inescapable physical inconsistency of such claims concerning the flow velocity. Taking into account this basic principle from the beginning, we then demonstrate that a proper employment of physical statistics naturally reproduces the experimental observation without causing such a conceptual crisis. This example showcases the importance of strict adherence to the basic principle of relative motion in physical statistics, especially when pushing the frontiers of physics and technology.
format Preprint
id arxiv_https___arxiv_org_abs_2401_08576
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Showcasing the necessity of the principle of relative motion in physical statistics: Inconsistency of the `segmented Fermi surface'
Ku, Wei
Hegg, Anthony
Superconductivity
Statistical Mechanics
The hunt for exotic properties in flowing systems is a popular and active field of study, and has recently gained renewed attention through claims such as a ``segmented Fermi surface'' in a superconducting system that hosts steady superflow of screening current driven by an external field. Apart from this excitement and the promise of hosting Majorana zero modes, claims such as this imply exotic gap-to-gapless quantum phase transitions merely through boost of inertial frames of observation, and challenge the very concept behind the principle of relative motion. Here, we first illustrate an obvious inescapable physical inconsistency of such claims concerning the flow velocity. Taking into account this basic principle from the beginning, we then demonstrate that a proper employment of physical statistics naturally reproduces the experimental observation without causing such a conceptual crisis. This example showcases the importance of strict adherence to the basic principle of relative motion in physical statistics, especially when pushing the frontiers of physics and technology.
title Showcasing the necessity of the principle of relative motion in physical statistics: Inconsistency of the `segmented Fermi surface'
topic Superconductivity
Statistical Mechanics
url https://arxiv.org/abs/2401.08576