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Main Authors: Solidoro, Leonardo, Völkel, Sebastian H., Weinfurtner, Silke
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.12800
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author Solidoro, Leonardo
Völkel, Sebastian H.
Weinfurtner, Silke
author_facet Solidoro, Leonardo
Völkel, Sebastian H.
Weinfurtner, Silke
contents The emergence of precision gravity simulators in quantum and fluid systems is opening new avenues for probing curved-spacetime physics and black-hole phenomenology under controlled laboratory conditions. In parallel, advances in understanding how fundamental physics can be probed in the spectral signatures of black holes and exotic compact objects motivate the development of modern spectroscopic techniques within analogue-gravity experiments. In this work, we model the spectral properties of analogue black holes sourced by broadband stochastic noise, a crucial aspect in realistic experiments that poses substantial challenges for established data-analysis techniques. Using simulation-based inference, we demonstrate that the physical parameters encoded in noisy spectra can be reliably extracted, showing that these techniques provide a powerful tool for studying both spacetime properties and boundary effects in gravity simulators.
format Preprint
id arxiv_https___arxiv_org_abs_2604_12800
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Spectroscopy of analogue black holes using simulation-based inference
Solidoro, Leonardo
Völkel, Sebastian H.
Weinfurtner, Silke
General Relativity and Quantum Cosmology
Data Analysis, Statistics and Probability
The emergence of precision gravity simulators in quantum and fluid systems is opening new avenues for probing curved-spacetime physics and black-hole phenomenology under controlled laboratory conditions. In parallel, advances in understanding how fundamental physics can be probed in the spectral signatures of black holes and exotic compact objects motivate the development of modern spectroscopic techniques within analogue-gravity experiments. In this work, we model the spectral properties of analogue black holes sourced by broadband stochastic noise, a crucial aspect in realistic experiments that poses substantial challenges for established data-analysis techniques. Using simulation-based inference, we demonstrate that the physical parameters encoded in noisy spectra can be reliably extracted, showing that these techniques provide a powerful tool for studying both spacetime properties and boundary effects in gravity simulators.
title Spectroscopy of analogue black holes using simulation-based inference
topic General Relativity and Quantum Cosmology
Data Analysis, Statistics and Probability
url https://arxiv.org/abs/2604.12800