P
Paolo Pani
Researcher at Sapienza University of Rome
Publications - 337
Citations - 19007
Paolo Pani is an academic researcher from Sapienza University of Rome. The author has contributed to research in topics: Black hole & General relativity. The author has an hindex of 66, co-authored 302 publications receiving 14022 citations. Previous affiliations of Paolo Pani include Harvard University & Federal University of Pará.
Papers
More filters
Journal ArticleDOI
Tensor-multi-scalar theories: relativistic stars and 3 + 1 decomposition
Michael Horbatsch,Michael Horbatsch,Hector O. Silva,Davide Gerosa,Paolo Pani,Paolo Pani,Emanuele Berti,Emanuele Berti,Leonardo Gualtieri,Ulrich Sperhake,Ulrich Sperhake,Ulrich Sperhake +11 more
TL;DR: In this article, a tensor-multi-scalar model with two scalar fields and a maximally symmetric target-space manifold is introduced, and spontaneous scalarization threshold is determined by the eigenvalues of a symmetric scalar-matter coupling matrix.
Journal ArticleDOI
Superradiance in rotating stars and pulsar-timing constraints on dark photons
TL;DR: In this paper, it was shown that rotating stars amplify low-frequency electromagnetic waves, and that this effect is largest when the time scale for conduction within the star is of the order of a light crossing time.
Journal ArticleDOI
Extreme mass ratio inspirals with spinning secondary: A detailed study of equatorial circular motion
TL;DR: In this article, the authors studied the EMRI dynamics in the presence of a spinning secondary, collecting and extending various results that appeared in previous work and also providing useful intermediate steps and new relations for the first time.
RepositoryDOI
EuCAPT White Paper: Opportunities and Challenges for Theoretical Astroparticle Physics in the Next Decade
R. Alves Batista,Amin,G. Barenboim,Nicola Bartolo,Daniel Baumann,A. Bauswein,Emilio Bellini,D. Benisty,Gianfranco Bertone,P. Blasi,C.G. Böhmer,Ž Bošnjak,T. Bringmann,Clare Burrage,M. Bustamante,J. Calderón Bustillo,C.T. Byrnes,F. Calore,R. Catena,D.G. Cerdeño,S.S. Cerri,Marco Chianese,Katy Clough,Alex Cole,P. Coloma,Adam Coogan,L. Covi,D. Cutting,A.C. Davis,C. De Rham,A. Di Matteo,G. Domènech,M. Drewes,T. Dietrich,T.D.P. Edwards,I. Esteban,R. Erdem,C. Evoli,Matteo Fasiello,S.M. Feeney,R.Z. Ferreira,A. Fialkov,N. Fornengo,S. Gabici,T. Galatyuk,Daniele Gaggero,D. Grasso,C. Guépin,J. Harz,M. Herrero-Valea,T. Hinderer,N.B. Hogg,D.C. Hooper,D. Iocco,J. Isern,Konstantin Karchev,Bradley J. Kavanagh,M. Korsmeier,K. Kotera,Kazuya Koyama,B. Krishnan,Julien Lesgourgues,J. Levi Said,Lucas Lombriser,C.S. Lorenz,S. Manconi,M. Mapelli,A. Marcowith,S.B. Markoff,D.J. Marsh,M. Martinelli,C.J.A.P. Martinsolami,P. Millington,P. Moesta,K. Nippel,V. Niro,E. O'Connor,F. Oikonomou,C.F. Paganini,G. Pagliaroli,Paolo Pani,C. Pfrommer,Silvia Pascoli,L. Pinol,L. Pizzuti,R.A. Porto,A. Pound,F. Quevedo,G.G. Raffelt,Alvise Raccanelli,E. Ramirez-Ruiz,M. Raveri,S. Renaux-Petel,Angelo Ricciardone,A. Rida Khalifeh,Antonio Riotto,R. Roiban,J. Rubio,M. Sahlén,Nashwan Sabti,L. Sagunski,N. Šarčević,K. Schmitz,Pedro Schwaller,T. Schwetz,A. Sedrakian,E. Sellentin,A. Serenelli,P.D. Serpico,E.I. Sfakianakis,S. Shalgar,A. Silvestri,I. Tamborra,Konstantinos Tanidis,D. Teresi,A.A. Tokareva,L. Tolos,S. Trojanowski,R. Trotta,C. Uhlemann,F.R. Urban,Filippo Vernizzi,A. van Vliet,F.L. Villante,A. Vincent,J. Vink,E. Vitagliano,Christophe Weniger,A. Wickenbrock,W. Winter,S. Zell,M. Zeng +131 more
TL;DR: The European Consortium for Astroparticle Theory (EuCAPT) white paper as mentioned in this paper explores upcoming theoretical opportunities and challenges for our field of research with particular emphasis on the possible synergies among different subfields, and the prospects for solving the most fundamental open questions with multi-messenger observations.
Journal ArticleDOI
Bayesian Evidence for Both Astrophysical and Primordial Black Holes: Mapping the GWTC-2 Catalog to Third-Generation Detectors
TL;DR: In this paper, a hierarchical Bayesian analysis of the GWTC-2 catalog is performed to investigate the mixed scenario in which the merger events are explained by black holes of both astrophysical and primordial origin.