TL;DR
This paper explores the behavior of gauge fields in accelerated frames, revealing how scale invariance influences dynamics, Unruh radiation, and implications for quantum chromodynamics in Rindler spaces.
Contribution
It demonstrates the role of scale invariance in gauge field dynamics in Rindler spaces and discusses implications for QCD and related theories.
Findings
Properties of Unruh radiation analyzed
Photon condensate characteristics discussed
Interaction energy of static charges examined
Abstract
Quantized fields in accelerated frames (Rindler spaces) with emphasis on gauge fields are investigated. Important properties of the dynamics in Rindler spaces are shown to follow from the scale invariance of the corresponding Hamiltonians. Origin and consequences of this extraordinary property of Hamiltonians in Rindler spaces are elucidated. Characteristics of the Unruh radiation, the appearance of a photon condensate and the interaction energy of vector and scalar static charges are discussed and implications for Yang-Mills theories and QCD in Rindler spaces are indicated.
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