Seventeenth Marcel Grossmann Meeting

Vacuum instability and Black Hole Evaporation

11 Jul 2024, 15:00

20m

M4 (Palazzo Micara of the ‘Gabriele d’Annunzio’ University)

Talk in a parallel session Quantum field theory in curved spacetimes and perturbative quantum gravity Quantum field theory in curved spacetimes and perturbative quantum gravity

Speaker

Michael Florian Wondrak

Description

This talk presents a new avenue to black hole evaporation using a heat-kernel approach in the context of effective field theory analogous to deriving the Schwinger effect. Applying this method to an uncharged massless scalar field in a Schwarzschild spacetime, we show that spacetime curvature takes a similar role as the electric field strength in the Schwinger effect. We interpret our results as local pair production in a gravitational field and derive a radial production profile. The resulting emission peaks near the unstable photon orbit. Comparing the particle number and energy flux to the Hawking case, we find both effects to be of similar order. However, our pair production mechanism itself does not explicitly make use of the presence of a black hole event horizon and might have cosmological implications.
The presentation is based on Phys. Rev. Lett. 130 (2023) 221502.