A Lorentz variant theory that passes fundamental tests of special relativity and makes diverging, testable but as of yet untested predictions
Daniël Bischoff van Heemskerck, Roman Szostek, Daniël Bischoff van Heemskerck

TL;DR
This paper proposes a new theory that aligns with special relativity experiments but makes new predictions that could test for new physics.
Contribution
A new Lorentz variant theory is proposed that aligns with special relativity tests but makes untested predictions.
Findings
The theory aligns with experimental results of special relativity tests.
It makes diverging predictions about Doppler shift and time dilation.
A modified Ives-Stilwell experiment is proposed to test the theory.
Abstract
Background: Tests of special relativity have been conducted over the past century with increasing accuracy and none have showed violations of Lorentz invariance. In this paper we will examine whether these tests are together sufficient to rule out theories that violate observational symmetry. Methods: A variant theory is outlined where relativistic effects such as length contraction and time dilation are purely local consequences of the relative velocity between a system and its medium. The outlined theory is tested against the fundamental tests of special relativity. Results: It is found that although this alteration does not align with the principle of relativity, it quantitatively aligns with the experimental results of the fundamental tests of special relativity and their modern variations, and makes diverging, testable but as of yet untested predictions concerning Doppler shift…
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Taxonomy
TopicsNoncommutative and Quantum Gravity Theories · Cosmology and Gravitation Theories · Relativity and Gravitational Theory
