Casimir effect and Lorentz invariance violation
S. A. Alavi
TL;DR
This paper investigates how Lorentz invariance violation (LIV) affects the Casimir effect, providing a potential experimental test for LIV through quantum vacuum fluctuation measurements.
Contribution
It calculates the corrections to the Casimir force caused by LIV, offering a novel way to test fundamental symmetries in physics.
Findings
LIV induces measurable modifications to the Casimir force
The results suggest new experimental avenues to detect LIV
Provides theoretical framework for LIV effects on quantum vacuum phenomena
Abstract
The Casimir effect is one of the most direct manifestations of the existence of the vacuum quantum fluctuations, discovered by H. B Casimir in 1948. On the other hand, Lorentz invariance is one of the main and basic concepts in special relativity, which states that, the laws of physics are invariant under Lorentz transformation. In this work, we calculate the corrections imposed by LIV on Casimir effect (force). This may provide a direct probe to test LIV in nature.
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