First-Order Transitions in Charged Boson Nebulae

Ciprian Dariescu; Marina-Aura Dariescu (U. of Oregon)

arXiv:gr-qc/0303041·gr-qc·May 23, 2007

First-Order Transitions in Charged Boson Nebulae

Ciprian Dariescu, Marina-Aura Dariescu (U. of Oregon)

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TL;DR

This paper investigates how gravity and electric fields influence charged scalar fields in nebulae using first-order approximations of Einstein-Maxwell-Klein-Gordon equations, focusing on transition amplitudes and source regeneration.

Contribution

It introduces a perturbative method to analyze the feedback effects of gravity and electric fields on charged scalar sources in a spherically symmetric spacetime.

Findings

01

Computed transition amplitudes in the radiation zone.

02

Determined the coherent source-field regeneration rate.

03

Analyzed the feedback mechanisms in charged boson nebulae.

Abstract

Using the first-order approximating solutions to the Einstein-Maxwell-Klein-Gordon system of equations for a complex scalar field minimally coupled to a spherically symmetric spacetime, we study the feedback of gravity and electric field on the charged scalar source. Within a perturbative approach, we compute, in the radiation zone, the transition amplitudes and the coherent source-field regeneration rate.

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Taxonomy

TopicsCosmology and Gravitation Theories · Pulsars and Gravitational Waves Research · Solar and Space Plasma Dynamics