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Late-Time Tails in Nonlinear Evolutions of Merging Black Holes

Marina de Amicis, Hannes R. Rüter, G. Carullo, Simone Albanesi, C. Melize Ferrus, Keefe Mitman, Leo C. Stein, Vítor Cardoso, Sebastiano Bernuzzi, Michael Boyle, Nils Deppe, Lawrence E. Kidder, Jordan Moxon, Alessandro Nagar, Kyle C. Nelli, Harald Pfeiffer, Mark A. Scheel, William Throwe, Nils L. Vu, Anıl Zenginoğlu

2025Physical Review Letters12 citationsDOIOpen Access PDF

Abstract

We uncover late-time gravitational-wave tails in fully nonlinear 3+1 dimensional numerical relativity simulations of merging black holes, using the highly accurate spec code. We achieve this result by exploiting the strong magnification of late-time tails due to binary eccentricity, recently observed in perturbative evolutions, and showcase here the tail presence in head-on configurations for several mass ratios close to unity. We validate the result through a large battery of numerical tests and detailed comparison with a perturbative evolution, which display striking agreement with full nonlinear ones in the ringdown regime, and very similar tail morphologies. Our results offer yet another confirmation of the highly predictive power of black hole perturbation theory in the presence of a source, even when applied to nonlinear solutions. The late-time tail signal is much more prominent than anticipated until recently, and possibly within reach of gravitational-wave detector measurements, unlocking observational investigations of an additional set of general relativistic predictions on the long-range gravitational dynamics.

Topics & Concepts

PhysicsNonlinear systemPerturbation theory (quantum mechanics)Numerical relativityBinary numberPerturbation (astronomy)Binary black holeGeneral relativityStatistical physicsBlack hole (networking)DetectorComputational physicsTheory of relativityClassical mechanicsGravitationTheoretical physicsStrong gravityQuantum electrodynamicsSet (abstract data type)Gravitational waveSIGNAL (programming language)Formalism (music)Warm dense matterPulsars and Gravitational Waves ResearchBlack Holes and Theoretical PhysicsCosmology and Gravitation Theories
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