Radiation Bursts from Particles in the Field of Compact, Impenetrable,   Astrophysical Objects

G. Papini; G. Scarpetta; V. Bozza; A. Feoli; G. Lambiase

arXiv:gr-qc/0208013·gr-qc·June 25, 2015

Radiation Bursts from Particles in the Field of Compact, Impenetrable, Astrophysical Objects

G. Papini, G. Scarpetta, V. Bozza, A. Feoli, G. Lambiase

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TL;DR

This paper investigates radiation from charged particles near compact astrophysical objects, showing that such emissions resemble gamma-ray bursts through classical and quantum calculations.

Contribution

It introduces a combined classical and quantum approach to analyze radiation from particles in strong gravitational fields with maximal acceleration corrections.

Findings

01

Particles emit gamma-ray burst-like radiation.

02

Classical and quantum results are consistent.

03

Radiation characteristics are similar to observed gamma-ray bursts.

Abstract

The radiation emitted by charged, scalar particles in a Schwarzschild field with maximal acceleration corrections is calculated classically and in the tree approximation of quantum field theory. In both instances the particles emit radiation that has characteristics similar to those of gamma-ray bursters.

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