Somewhere in the not-too-distant universe, a galaxy named SDSS1335+0728 is waking up.
Over the past four years, astronomers have been able to watch the supermassive black hole in SDSS1335+0728s center go from dim and quiet to bright and active, the first time such a transition has been observed in real time, researchers report June 18 in Astronomy and Astrophysics. The finding will provide insights into the processes powering active galactic nuclei, or AGN, which occur when supermassive black holes consume enormous amounts of material, becoming bright enough to be seen clear across the cosmos (SN: 6/18/20).
Located 300 million light-years from Earth, SDSS1335+0728 first caught scientists attention in December 2019, when the Zwicky Transient Facility at Palomar Observatory in California noticed it brightening dramatically in optical wavelengths.
At the beginning we thought, Okay, this is a normal AGN candidate, says Paula Snchez Sez, an astrophysicist at the European Southern Observatory in Garching, Germany. But archival data stretching back 20 years revealed that SDSS1335+0728 hadnt previously shown signs of activity.
Black holes can light up when they rip apart and consume stars, a phenomenon known as a tidal disruption event (SN: 5/16/22). As material from the demolished object spins around the black hole, it heats up and produces bright radiation. Such events are relatively short lived, lasting a few days or months at most. Yet Snchez Sez and her colleagues watched SDSS1335+0728 remain luminous for the next few years.
The team was gearing up to publish their findings when, in February, the space-based Neil Gehrels Swift Observatory watched SDSS1335+0728 begin glowing in X-rays. Other facilities caught it turning on in a variety of other wavelengths.
All the data we have in hand seems to tell us that we are observing the formation of an AGN for the first time, Snchez Sez says.
Its possible that SDSS1335+0728 is consuming a smaller satellite galaxy that fell into it, though at this point its still unclear exactly whats going on. The researchers hope to conduct follow-up observations using NASAs James Webb Space Telescope, or future facilities like the Extremely Large Telescope, which should allow them to watch how gas is moving around the black hole and potentially help explain what theyre seeing.
We hope that from this source we will be able to learn how AGNs become AGNs, and how supermassive black holes grow, Snchez Sez says.
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