Self-amplifying Hawking radiation and its background: a numerical study
Abstract
We numerically study an analogue black hole with two horizons with similar parameters to a recent experiment. We find that the Hawking radiation exists on a background which contains a density oscillation, a zero-frequency ripple. The Hawking radiation evolves from spontaneous to self-amplifying, while the background ripple grows steadily with no qualitative change. It is seen that the self-amplifying Hawking radiation has a non-zero frequency. The background ripple appears even before the inner horizon is created, in contrast to predictions. This work is in agreement with the recent observation of self-amplifying Hawking radiation, and explains some of the features seen. In contrast to recent works, our study differentiates between the Hawking radiation observed, and the evolution of the background.
Cite
@article{arxiv.1608.02544,
title = {Self-amplifying Hawking radiation and its background: a numerical study},
author = {Jeff Steinhauer and Juan Ramón Muñoz de Nova},
journal= {arXiv preprint arXiv:1608.02544},
year = {2017}
}