Wellen im Gewebe des Universums können bis zum Anfang von allem, was wir wissen, zurückreichen

Wellen im Gewebe des Universums können bis zum Anfang von allem, was wir wissen, zurückreichen

Neutronensterne verschmelzen zu einem Schwarzen Loch

Eine numerische Simulation von Neutronensternen, die zu einem Schwarzen Loch verschmelzen, wobei ihre Akkretionsscheiben interagieren, um elektromagnetische Wellen zu erzeugen. Bildnachweis: L. Rezolla (AEI) & M. Koppitz (AEI & Zuse-Institut Berlin)

Wissenschaftler haben Fortschritte bei der Entdeckung gemacht, wie Wellen in der Raumzeit verwendet werden, die als Wellen bekannt sind Gravitationswellen Betrachten wir den Anfang von allem, was wir wissen. Die Forscher sagen, dass sie bald danach den Zustand des Universums besser verstehen können die große Explosion Indem Sie lernen, wie diese Wellen im Gewebe des Universums durch Planeten und intergalaktische Gase fließen.

„Wir können das frühe Universum nicht direkt sehen, aber vielleicht können wir es indirekt sehen, wenn wir uns ansehen, wie[{“ attribute=““>gravitational waves from that time have affected matter and radiation that we can observe today,” said Deepen Garg, lead author of a paper reporting the results in the Journal of Cosmology and Astroparticle Physics. Garg is a graduate student in the Princeton Program in Plasma Physics, which is based at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL).

Garg and his advisor Ilya Dodin, who is affiliated with both Princeton University and PPPL, adapted this technique from their research into fusion energy, the process powering the sun and stars that scientists are developing to create electricity on Earth without emitting greenhouse gases or producing long-lived radioactive waste. Fusion scientists calculate how electromagnetic waves move through plasma, the soup of electrons and atomic nuclei that fuels fusion facilities known as tokamaks and stellarators.

It turns out that this process resembles the movement of gravitational waves through matter. “We basically put plasma wave machinery to work on a gravitational wave problem,” Garg said.

Gravitational waves, first predicted by Albert Einstein in 1916 as a consequence of his theory of relativity, are disturbances in space-time caused by the movement of very dense objects. They travel at the speed of light and were first detected in 2015 by the Laser Interferometer Gravitational Wave Observatory (LIGO) through detectors in Washington State and Louisiana.

Garg and Dodin created formulas that could theoretically lead gravitational waves to reveal hidden properties about celestial bodies, like stars that are many light years away. As the waves flow through matter, they create light whose characteristics depend on the matter’s density.

A physicist could analyze that light and discover properties of a star millions of light years away. This technique could also lead to discoveries about the smashing together of neutron stars and black holes, ultra-dense remnants of star deaths. They could even potentially reveal information about what was happening during the Big Bang and the early moments of our universe.

The research began without any sense of how important it might become. “I thought this would be a small, six-month project for a graduate student that would involve solving something simple,” Dodin said. “But once we started digging deeper into the topic, we realized that very little was understood about the problem and we could do some very basic theory work here.”

The scientists now plan to use the technique to analyze data in the near future. “We have some formulas now, but getting meaningful results will take more work,” Garg said.

Reference: “Gravitational wave modes in matter” by Deepen Garg and I.Y. Dodin, 10 August 2022, Journal of Cosmology and Astroparticle Physics.
DOI: 10.1088/1475-7516/2022/08/017

This research was supported by the U.S. National Science Foundation through Princeton University.

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