Motion of Massive and Massless Test particles in Dyadosphere Geometry

B. Raychaudhuri; F. Rahaman; M. Kalam; A. Ghosh

arXiv:0805.3208·gr-qc·May 13, 2015

Motion of Massive and Massless Test particles in Dyadosphere Geometry

B. Raychaudhuri, F. Rahaman, M. Kalam, A. Ghosh

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TL;DR

This paper investigates the trajectories of massive and massless particles in dyadosphere geometry using Hamilton-Jacobi and Lagrangian methods, and examines scalar wave behavior to confirm no superradiance occurs.

Contribution

It introduces a comprehensive analysis of particle motion and wave behavior in dyadosphere geometry, highlighting the absence of superradiance and comparing Hamilton-Jacobi and Lagrangian approaches.

Findings

01

Particles follow specific geodesics in dyadosphere geometry

02

Scalar wave analysis shows no superradiance occurs

03

Hamilton-Jacobi and Lagrangian methods yield consistent results

Abstract

Motion of massive and massless test particle in equilibrium and non-equilibrium case is discussed in a dyadosphere geometry through Hamilton-Jacobi method. Geodesics of particles are discussed through Lagrangian method too. Scalar wave equation for massless particle is analyzed to show the absence of superradiance.

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