Black Hole Horizons in Quantum Gravity

HORIZON.1.1HORIZON-ERCID: 101040024
EC Contribution
€14,971
Consortium Size
1 orgs
Summary

The project ""Black Hole Horizons in Quantum Gravity"" aims for an in-depth investigation of black holes and the information paradox in the context of quantum gravity. Due to the recent breakthroughs in astronomy, these exotic objects have moved from the purely theoretical realm to being abundant in our physical universe. Surprisingly, our theoretical understanding of them is insufficient to even in principle understand their horizons and what happens behind them. Our approach to tackle these questions is to combine a lower-dimensional approach with holography as a guide. Within this framework, substantial breakthroughs were made in the Sachdev-Ye-Kitaev models, and their low-energy gravitational description in terms of Jackiw-Teitelboim gravity. This model is exactly solvable to a large degree, and many important lessons on black hole physics and quantum gravity can be studied quantitatively and exactly. Our goals within this project span across two lines. Firstly, we will apply quantum gravitational results on the Jackiw-Teitelboim gravity model to address aspects of the black hole information puzzle in a quantitative way and probe the deep questions on black hole horizons largely building on our detailed knowledge of this model. In particular, we will calculate correlation functions of local infalling bulk observables, and assess the effect of quantum gravitational corrections to evaporation. Secondly, it is vital to investigate the universality of the set of techniques and methods we use in Jackiw-Teitelboim gravity. We will do this by pursuing several roads simultaneously (dilaton gravity models, 2d string theory, the original Sachdev-Ye-Kitaev model, supersymmetric models and 3d pure gravity). Armed with these results, we will extrapolate to higher dimension and in particular to our physical universe making contact with the first objective.""

Consortium (1)

Project Results (19)

Source: CORDIS, the EU research results database.

Publications (17)
Quantum group origins of edge states in double-scaled SYK
arXiv· 2025DOI
Andreas Belaey, Thomas G. Mertens, Thomas Tappeiner
Wormholes, branes and finite matrices in sine dilaton gravity
arXiv· 2025DOI
Andreas Blommaert, Adam Levine, Thomas G. Mertens, Jacopo Papalini, Klaas Parmentier
An entropic puzzle in periodic dilaton gravity and DSSYK
arXiv· 2024DOI
Andreas Blommaert, Adam Levine, Thomas G. Mertens, Jacopo Papalini, Klaas Parmentier
Asymptotics of Weil-Petersson volumes and two-dimensional quantum gravities
SciPost Physics· 2024DOI
Luca Griguolo; Jacopo Papalini; Lorenzo Russo; Domenico Seminara
Branes in JT (super)gravity from group theory
Journal of High Energy Physics· 2024DOI
Andreas Belaey, Francesca Mariani, Thomas G. Mertens
Dynamical actions and q-representation theory for double-scaled SYK
Journal of High Energy Physics· 2024DOI
Andreas Blommaert, Thomas G. Mertens, Shunyu Yao
Gravitational wavefunctions in JT supergravity
Journal of High Energy Physics· 2024DOI
Andreas Belaey, Francesca Mariani, Thomas G. Mertens
Localization and resummationof unstable instantons in 2d Yang-Mills
Journal of High Energy Physics· 2024DOI
Luca Griguolo, Rodolfo Panerai, Jacopo Papalini, Domenico Seminara, Itamar Yaakov
Magnetic Anti-de Sitter Wormholes as seeds for Higgs Inflation
arXiv· 2024DOI
Panos Betzios, Ioannis D. Gialamas, Olga Papadoulaki
Sine-dilaton gravity vs double-scaled SYK: exploring one-loop quantum corrections
arXiv· 2024DOI
Leonardo Bossi, Luca Griguolo, Jacopo Papalini, Lorenzo Russo, Domenico Seminara
Solvable models of quantum black holes: a review on Jackiw–Teitelboim gravity
Living Reviews in Relativity· 2024DOI
Thomas G. Mertens, Gustavo J. Turiaci
The dilaton gravity hologram of double-scaled SYK
arXiv· 2024DOI
Andreas Blommaert, Thomas G. Mertens, Jacopo Papalini
A proposal for 3d quantum gravity and its bulk factorization
Journal of High Energy Physics· 2023DOI
Thomas G. Mertens, Joan Simón, Gabriel Wong
Journal of High Energy Physics
Journal of High Energy Physics· 2023DOI
Blommaert, Andreas; Mertens, Thomas G.; Yao, Shunyu
Near-extremal limits of de Sitter black holes
Journal of High Energy Physics· 2023DOI
Alejandra Castro, Francesca Mariani, Chiara Toldo
Operational islands and black hole dissipation in JT gravity
Journal of High Energy Physics· 2023DOI
Julian De Vuyst, Thomas G. Mertens
Quantum exponentials for the modular double and applications in gravity models
Journal of High Energy Physics· 2023DOI
Thomas G. Mertens
Deliverables (1)
Documents, reports
Other Results (1)
Periodic Reporting for period 1 - BHHQG (Black Hole Horizons in Quantum Gravity)