TL;DR
This paper explores how nonlocal effects in electrodynamics influence the behavior of electromagnetic radiation as perceived by uniformly rotating observers, extending special relativity with acceleration-induced nonlocality.
Contribution
It introduces a framework incorporating nonlocality into electrodynamics for rotating systems, analyzing its impact on electromagnetic wave reception.
Findings
Nonlocality affects amplitude and frequency measurements by rotating observers.
Electrodynamics in rotating systems exhibits novel nonlocal features.
Implications align with the Bohr-Rosenfeld principle.
Abstract
Electrodynamics of rotating systems is expected to exhibit novel nonlocal features that come about when acceleration-induced nonlocality is introduced into the special relativity theory in conformity with the Bohr-Rosenfeld principle. The implications of nonlocality for the amplitude and frequency of electromagnetic radiation received by uniformly rotating observers are investigated.
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