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Un nouveau modèle cosmique pour révéler ce qu’il y a à l’intérieur des trous noirs en collision

Un nouveau modèle cosmique pour révéler ce qu’il y a à l’intérieur des trous noirs en collision
Deux trous noirs entrent en collision lors de leur fusion

Vue d’artiste de deux trous noirs sur le point d’entrer en collision et de fusionner. De nouvelles recherches ont conduit au développement d’un modèle plus sophistiqué de modélisation des événements cosmiques, qui permettra de mieux comprendre la structure de la fusion des trous noirs.

Un article utilise de nouvelles méthodes pour analyser les ondes émises par les trous noirs lorsqu’ils entrent en collision.

En 2015, les scientifiques ont détecté pour la première fois des ondes gravitationnelles, qui sont des ondulations dans l’espace-temps qui se produisent lorsque des événements cosmiques majeurs – tels que la collision et la fusion de deux trous noirs – perturbent l’univers. L’observation de ces ondes a confirmé la théorie de la relativité générale d’Einstein, qui prédisait l’apparition de telles ondes si l’espace-temps fonctionnait comme il le pensait. Au cours des sept années qui ont suivi, près de 100 trous noirs fusionnés ont été découverts par des observations[{ » attribute= » »>gravitational waves that these extraterrestrial events emit.

Now, thanks to new research, the ability to model these cosmic events has become more sophisticated. The team of 14 researchers was led by Caltech PhD student and Columbia College alum Keefe Mitman (CC’19), Columbia postdoc Macarena Lagos, Columbia Professor Lam Hui, and University of Mississippi professor Leo Stein. The improved model that they developed paves the way for a deeper understanding of the structure of merging black holes.

In “Nonlinearities in Black Hole Ringdowns,” a new paper published in Physical Review Letters, the team outlines a more complex way to model the signal that gravitational waves emit by including nonlinear interactions in the models. This modeling method will allow scientists to better understand the structure of what’s happening inside of black holes, and will also help test whether Einstein’s theory of general relativity correctly describes the behavior of gravity in extreme astrophysical environments.

Two Black Holes About to Merge Computer Rendering

A computer rendering of two black holes that are about to merge, as viewed from above. Credit: SXS Lensing/Simulating eXtreme Spacetimes Collaboration

“This is a big step in preparing us for the next phase of gravitational wave detection, which will deepen our understanding of gravity and these incredible phenomena taking place in the far reaches of the cosmos,” Lagos, a co-author on the paper, said.

The research comes at an opportune time: This March, LIGO, the observatory that first detected gravitational waves, will be powered on to collect new observations of events taking place in the far reaches of space. The observatory has not operated since 2020, when it was shuttered because of the pandemic. Several other major detectors are expected to start collecting data in the coming years, making it even more important that they have sophisticated models to interpret incoming information.

Co-author Lam Hui used an analogy to describe the information that gravitational waves can provide: “If I give you a box and ask you what’s in it, the natural thing to do is to shake it. That would tell you whether inside the box are candies or coins. That’s what we’re trying to do with these models, is gather a sense of the inner contents of a black hole by listening to the sound that’s emitted when it’s shaken.” The “shaking” in the case of black holes is the disruption that occurs when two collide and merge. “By listening to the harmonics that it emits, we can assess the space-time structure of the black hole.”

Models of gravitational waves emitted after two black holes merge have to date only included linear interactions, which work well, providing valuable information about black holes’ structure and contents. This new model, however, could offer as much as a 10% improvement in the overall accuracy of black hole models, the paper’s authors said.

To understand the importance of using nonlinearity to describe gravitational waves, the authors described waves in an ocean: A wave that rises and falls without spouting water into the air could be described with a linear equation. But a wave that crests and breaks exhibits nonlinear interactions: While some water swells at the wave’s bottom, other water is simultaneously crashing left, right, up, and down in tendrils and droplets of water above it. A nonlinear model of the wave would allow you to understand how and when all of the water in the wave, including those airborne droplets, is moving. Gravitational waves are similar to water waves, and the new model is able to account for the extraterrestrial equivalent of extra water droplets.

“We’re getting ourselves ready for when we’re going to be gravitational wave detectives, when we’ll be digging deeper to understand everything we can about their nature,” Stein, one of the paper’s authors, said.

Reference: “Nonlinearities in Black Hole Ringdowns” by Keefe Mitman, Macarena Lagos, Leo C. Stein, Sizheng Ma, Lam Hui, Yanbei Chen, Nils Deppe, François Hébert, Lawrence E. Kidder, Jordan Moxon, Mark A. Scheel, Saul A. Teukolsky, William Throwe and Nils L. Vu, 22 February 2023, Physical Review Letters.
DOI: 10.1103/PhysRevLett.130.081402

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