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Bibliographic Details
Main Authors: Campbell, David K., Bouche, Ian, Som, Abhishek, Bishop, David J.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.10179
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author Campbell, David K.
Bouche, Ian
Som, Abhishek
Bishop, David J.
author_facet Campbell, David K.
Bouche, Ian
Som, Abhishek
Bishop, David J.
contents Since its first description in 1948, the Casimir effect has been studied extensively. Standard arguments for its existence hinge on the elimination of certain modes of the electromagnetic field because of the boundary conditions in the Casimir cavity. As such, it has been suggested that the ground state energy of the vacuum within the cavity may be reduced compared to the value outside. Could this have an effect on physical phenomena within the cavity? We study this Casimir energy and probe whether the critical temperature $T_c$ of a superconductor is altered when it is placed in the cavity. We do not detect any change in $T_c$ larger than 12 microKelvin, but theoretically expect a change on the order of 0.025 microKelvin, roughly 1000 times lower than our achieved sensitivity.
format Preprint
id arxiv_https___arxiv_org_abs_2412_10179
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Seeking the Casimir Energy
Campbell, David K.
Bouche, Ian
Som, Abhishek
Bishop, David J.
Quantum Physics
Superconductivity
Since its first description in 1948, the Casimir effect has been studied extensively. Standard arguments for its existence hinge on the elimination of certain modes of the electromagnetic field because of the boundary conditions in the Casimir cavity. As such, it has been suggested that the ground state energy of the vacuum within the cavity may be reduced compared to the value outside. Could this have an effect on physical phenomena within the cavity? We study this Casimir energy and probe whether the critical temperature $T_c$ of a superconductor is altered when it is placed in the cavity. We do not detect any change in $T_c$ larger than 12 microKelvin, but theoretically expect a change on the order of 0.025 microKelvin, roughly 1000 times lower than our achieved sensitivity.
title Seeking the Casimir Energy
topic Quantum Physics
Superconductivity
url https://arxiv.org/abs/2412.10179