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In new study, astronomers trace X-ray bursts to stellar debris around black holeAstroSat, along with observatories Chandra, HST, NICER, and Swift, found that a massive black hole has torn apart one star and is now using that stellar wreckage to “pummel” another star or smaller black hole. This discovery links two mysteries with a largely unestablished connection, ISRO said on Thursday.
R Krishnakumar
Last Updated IST
<div class="paragraphs"><p>In 2019, astronomers witnessed the signal of a star that got too close to a black hole and was destroyed by the black hole’s gravitational forces. (Representative image)</p></div>

In 2019, astronomers witnessed the signal of a star that got too close to a black hole and was destroyed by the black hole’s gravitational forces. (Representative image)

Credit: Reuters Photo

Bengaluru: New findings by NASA’s space observatories and ISRO’s AstroSat from a stellar wreckage may provide important insights into cosmic occurrences that astronomers call Tidal Disruption Events (TDEs) and Quasi Periodic Eruptions (QPEs).

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AstroSat, along with observatories Chandra, HST, NICER, and Swift, found that a massive black hole has torn apart one star and is now using that stellar wreckage to “pummel” another star or smaller black hole. This discovery links two mysteries with a largely unestablished connection, ISRO said on Thursday.

In 2019, astronomers witnessed the signal of a star that got too close to a black hole and was destroyed by the black hole’s gravitational forces. Subsequently, the star’s remains began circling the black hole, in a disk.

Expanding outward over the years, the disk is now directly in the path of a star, or a stellar-mass black hole, orbiting the massive black hole at a previously safe distance. The orbiting star repeatedly crashes through the debris disk, about once every 48 hours, setting off a collision that causes bursts of X-rays that were captured with Chandra.

Matt Nicholl of Queen's University Belfast, United Kingdom, the lead author of the study, equated the collisions to the splashes caused by a diver as she repeatedly goes into a pool. “The star in this comparison is like the diver and the disk is the pool, and each time the star strikes the surface it creates a huge splash of gas and X-rays,” Nicholl said. The paper has been published in Nature.

TDEs are documented as cases where an object gets too close to a black hole and gets torn apart in a single burst of light. Astronomers have also discovered a new class of bright flashes from the centres of galaxies, which are detected only in X-rays and repeat many times. However, they could not explain these X-ray bursts, or QPEs.

“There had been feverish speculation that these phenomena were connected, and now we've discovered the proof that they are,” co-author Dheeraj Pasham of the Massachusetts Institute of Technology said.

Gulab Dewangan, a co-author from the Pune-based Inter-University Centre for Astronomy and Astrophysics, noted that AstroSat's Soft X-ray Telescope and the Ultra-Violet Imaging Telescope both detected the source event, now known as AT2019qiz, but the eruptions were only seen in X-rays. Future sensitive simultaneous X-ray and UV observations of similar eruptions will enable a deeper investigation into their nature.

Andrew Mummery of Oxford University called the findings a “huge breakthrough” in understanding the origin of the eruptions. “We now realise we need to wait a few years for the eruptions to ‘turn on’ after a star has been torn apart because it takes some time for the disk to spread out far enough to encounter another star,” he said.

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(Published 10 October 2024, 19:25 IST)