Analyzing Black Hole super-radiance Emission of Particles/Energy from a Black Hole as a Gedankenexperiment to get bounds on the mass of a Graviton

TL;DR

This paper explores black hole super-radiance to set bounds on graviton mass and examines how extra dimensions might influence gravitational phenomena, potentially challenging existing light-bending observations.

Contribution

It differentiates super-radiance in conventional and Braneworld black holes, proposing new bounds on graviton mass and implications for extra dimensions and multiverse theories.

Findings

Graviton mass is constrained to ≤ 10^-65 grams.

Braneworld black holes may alter light-bending predictions.

Super-radiance conditions differentiate between BH models.

Abstract

Use of super-radiance in BH physics, so dE/dt < 0 specifies conditions for a mass of a graviton being less than or equal to 10^ - 65 grams, and also allows for determing what role additional dimensions may play in removing the datum that massive gravitons lead to 3/4th the bending of light past the planet Mercury.The present document makes a given differentiation between super-radiance in the case of conventional BHs and Braneworld BH super-radiance, which may delineate if Braneworlds contribute to an admissible massive graviton in terms of removing the usual problem of the 3/4th the bending of light past the planet Mercury which is normally associated with massive gravitons. This leads to a fork in the road, between two alternatives with the possibility of needing a multiverse containment of BH structure, or embracing what Hawkings wrote up recently, namely a re do of the Event Horizon hypothesis as we know it.