Particles and scalar waves in noncommutative charged black hole spacetime

TL;DR

This paper investigates the motion of particles and scalar wave scattering in noncommutative charged black hole spacetime, comparing it with classical Reissner-Nordström black holes to understand unique features of noncommutative geometry effects.

Contribution

It provides a detailed analysis of geodesics, particle motion, and scalar wave scattering specifically in noncommutative charged black hole spacetime, highlighting differences from classical models.

Findings

Distinct particle trajectories in noncommutative spacetime

Differences in effective potential compared to Reissner-Nordström black holes

Insights into scalar wave scattering behavior in noncommutative geometry

Abstract

In this paper we have discussed geodesics and the motion of test particle in the gravitational field of noncommutative charged black hole spacetime. The motion of massive and massless particle have been discussed seperately. A comparative study of noncommutative charged black hole and usual Reissner-Nordstrom black hole has been done. The study of effective potential has also been included. Finally, we have examined the scattering of scalar waves in noncommutative charged black hole spacetime.