White paper and roadmap for quantum gravity phenomenology in the multi-messenger era
2025; IOP Publishing; Volume: 42; Issue: 3 Linguagem: Inglês
10.1088/1361-6382/ad605a
ISSN1361-6382
AutoresRafael Alves Batista, Giovanni Amelino-Camelia, D. Boncioli, J. M. Carmona, Armando di Matteo, Giulia Gubitosi, Iarley P. Lobo, Nick E. Mavromatos, Christian Pfeifer, Diego Rubiera-García, Emmanuel N. Saridakis, T. Terzić, Elias C. Vagenas, Paulo Vargas Moniz, H. Abdalla, Martina Adamo, Andrea Addazi, Fotios K. Anagnostopoulos, V. Antonelli, M. Asorey, Ángel Ballesteros, Spyros Basilakos, David Benisty, Markus Boettcher, J. Bolmont, Alexander Bonilla, Pasquale Bosso, Mariam Bouhmadi-López, L. Burderi, A. Campoy-Ordaz, Sami Caroff, S. Cerci, J. L. Cortés, Vittorio D’Esposito, Suratna Das, Marco de Cesare, M. Demirci, F. Di Lodovico, T. Di Salvo, J. M. Diego, Goran S. Djordjević, Alba Domi, Ludovic Ducobu, Celia Escamilla‐Rivera, Giuseppe Fabiano, Diego Fernández-Silvestre, S. A. Franchino-Viñas, Antonia M. Frassino, Domenico Frattulillo, M. Gaug, L. Gergely, Eduardo Guendelman, D. Guetta, Iván Gutiérrez-Sagredo, He Ping, Sjors Heefer, Tajron Jurić, T. Katori, Jerzy Kowalski-Glikman, Gaetano Lambiase, Jackson Levi Said, Cong Li, H. Li, Giuseppe Gaetano Luciano, B-Q Ma, Antonino Marcianò, M. Martı́nez, Anupam Mazumdar, Gabriel Menezes, Flavio Mercati, Djordje Minić, L. Miramonti, V. A. Mitsou, M. F. Mustamin, S. Navas, Gonzalo J. Olmo, Daniele Oriti, Ali Övgün, Reggie C. Pantig, Aliasghar Parvizi, Roman Pasechnik, Vedad Pasic, Luciano Petruzziello, Alessia Platania, S. M. M. Rasouli, Saeed Rastgoo, J. J. Relancio, Filip Rescic, M. A. Reyes, Giacomo Rosati, İzzet Sakallı, F. Salamida, A. Sanna, Denitsa Staicova, Jelena Strišković, D. Sunar Cerci, Marco Danilo Claudio Torri, Alessandro Vigliano, F. Wagner, Jean-Christophe Wallet, Aneta Wojnar, Vasilios Zarikas, Jian-Zhou Zhu, J. D. Zornoza,
Tópico(s)Black Holes and Theoretical Physics
ResumoAbstract The unification of quantum mechanics and general relativity has long been elusive. Only recently have empirical predictions of various possible theories of quantum gravity been put to test, where a clear signal of quantum properties of gravity is still missing. The dawn of multi-messenger high-energy astrophysics has been tremendously beneficial, as it allows us to study particles with much higher energies and travelling much longer distances than possible in terrestrial experiments, but more progress is needed on several fronts. A thorough appraisal of current strategies and experimental frameworks, regarding quantum gravity phenomenology, is provided here. Our aim is twofold: a description of tentative multimessenger explorations, plus a focus on future detection experiments. As the outlook of the network of researchers that formed through the COST Action CA18108 ‘Quantum gravity phenomenology in the multi-messenger approach (QG-MM)’, in this work we give an overview of the desiderata that future theoretical frameworks, observational facilities, and data-sharing policies should satisfy in order to advance the cause of quantum gravity phenomenology.
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