A Rogue Black Hole of Unusual Size Is Devouring Stars in a Distant Galaxy
The event, dubbed AT2024tvd, was first spotted by the Palomar Observatory's Zwicky Transient Facility and later confirmed by powerhouse space telescopes including Hubble and Chandra, which helped zero in on the cosmic crime scene. To the researchers' surprise, the responsible black hole was not at the center of its host galaxy, as supermassive black holes tend to be. Rather, this one was 2,600 light-years from the galactic center—a huge distance on paper, but really just one-tenth the distance between our Sun and Sagittarius A*, the black hole at the center of the Milky Way.
Tidal disruption events (TDEs) like this one occur when a black hole's gravity pulls on a star so violently that the less massive ball of gas is stretched, shredded, and swirled around the black hole, in a process delightfully called spaghettification. The fleeting burst of energy from the event is gargantuan, even rivaling a supernova—the explosive death of a massive star—in brightness. The burst of light is also visible across the electromagnetic spectrum, making TDEs an invaluable resource for spotting black holes that might otherwise be too quiet or hidden to detect, such as the recent rogue object.
What makes AT2024tvd special is that it's the first offset TDE discovered by optical surveys, according to a forthcoming paper in The Astrophysical Journal Letters, which is also posted on the preprint server arXiv. The achievement demonstrates how rogue black holes—warping spacetime and shrouded in darkness as they move through the cosmos—can be spotted, as long as an unfortunate object sacrifices itself for the massive object to reveal itself.
'Tidal disruption events hold great promise for illuminating the presence of massive black holes that we would otherwise not be able to detect,' said study co-author Ryan Chornock, a researcher at the University of California – Berkeley and a member of the ZTF team, in a NASA release. 'Theorists have predicted that a population of massive black holes located away from the centers of galaxies must exist, but now we can use TDEs to find them.'
The team has a couple of ideas about how the rogue black hole ended up offset in the galaxy, and so close to the supermassive black hole at its core. (The rogue black hole's mass is estimated to be roughly one million solar masses, at least ten times smaller than the black hole at the galactic center.) One option is that the black hole was at the center of a smaller galaxy that was subsumed by the larger galaxy, and now the black hole is simply drifting through the larger galaxy. Another possibility is that the black hole was the weakest link in what was once a three-body system, and was pushed out by the bigger objects; in other words, two larger black holes may lurk at the galaxy's core, and the rogue black hole was ejected thousands of light-years out.
'If the black hole went through a triple interaction with two other black holes in the galaxy's core, it can still remain bound to the galaxy, orbiting around the central region,' said Yuhan Yao, also a researcher at UC Berkeley and the lead author of the study, in the same release. But at the present moment, the team isn't sure if the black hole was pushed out or is being dragged in by the larger black hole.
With future instruments like the Vera Rubin Observatory and the Roman Space Telescope coming online, astronomers are hopeful this is just the beginning of an entirely new class of discoveries. Because if there's anything more unsettling than a black hole swallowing a star, it's the idea that the hungry, hungry objects are just drifting through space in unexpected locations.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
11 hours ago
- Yahoo
Milky Way season is here: How can you see our galaxy's core from Oklahoma this summer?
Along with summer comes the peak time for viewing the core of our galaxy, the Milky Way. But if you want to see the dense area of stars at the center of the Milky Way, you'll need a few conditions in place for the best view. And we hate to break it to you that while it is "Milky Way season," you won't be able to catch a glimpse of the core while watching fireworks this Fourth of July weekend. Here's what you need to know if you'd like to see the Milky Way this summer. The so-called "Milky Way season," the time of year when the core of our galaxy is visible from Earth, runs from early February to late October. During the rest of the year, from late November through January, the galactic center is not visible as the sun hovers between it and Earth, according to Outside Magazine. The best time to see the Milky Way core from Oklahoma, according to Capture the Atlas, is from late March to late August. More: When is the July full moon? Here's how to see the Buck Moon, learn history In order to see the galaxy core, you'll need extremely dark skies. It can be helpful to use a light pollution map, or check out the list of DarkSky International's certified DarkSky places. The best time of night to view the Milky Way is midnight to 5 a.m., on nights with a new moon. According to Outside Magazine, you should schedule your Milky Way outings between five nights before and after a new moon to avoid the light of the moon affecting your view. The closest certified DarkSky places to Oklahoma City are Copper Breaks State Park in Quanah, Texas, and Lakewood Village, Texas. You can also check out this light pollution map to find a dark enough place in Oklahoma. Oklahoma City falls at a nine, the highest number on the Bortle scale, which measures light pollution. The lower the number, the better. There are some areas in the Panhandle and southwestern Oklahoma with numbers as low as 2.5. This article originally appeared on Oklahoman: How to see the Milky Way galaxy's core this summer from Oklahoma
Business Wire
14 hours ago
- Business Wire
Natera Presents Data at ESMO GI on its Tissue-Free Latitude™ MRD * Assay, Demonstrating Excellent Overall Performance in Colorectal Cancer
AUSTIN, Texas--(BUSINESS WIRE)-- Natera, Inc. (NASDAQ: NTRA), a global leader in cell-free DNA and precision medicine, today announced data from a colorectal cancer (CRC) study of its tissue-free Latitude™ MRD assay, which were presented at the 2025 European Society for Medical Oncology GI Congress (ESMO GI). The clinical performance of the assay was analyzed in a cohort of ~200 patients (>1,300 plasma samples) with resectable stage I-IV colorectal cancer. Samples were derived from the GALAXY arm of the CIRCULATE-Japan study, one of the largest and most comprehensive prospective studies of MRD testing in resectable CRC. Key results include: Excellent clinical sensitivity to recurrence: The Latitude assay detected recurrence with 58% sensitivity in the post-surgical MRD window and 81% sensitivity in the surveillance setting, with median diagnostic lead time of 4.6 months. High clinical specificity: In the surveillance setting, patient-level specificity was 92%, and sample-level specificity was 97%. Highly prognostic of recurrence risk: MRD positivity was significantly associated with inferior outcomes during both the MRD (HR: 10, p<0.001) and surveillance (HR: 18, p<0.001) windows. Highly predictive of adjuvant chemotherapy (ACT) benefit: Among high-risk stage II and stage III patients, those who were MRD-positive after surgery derived significant benefit from ACT (p<0.001), while no significant treatment benefit was observed in MRD-negative patients (p=0.54). 'This study demonstrates strong clinical potential for Natera's tissue-free MRD assay,' said Yoshiaki Nakamura, M.D., Ph.D., principal investigator of the study. 'We clearly observed the prognostic and predictive value of the assay, seeing strong correlation of recurrence risk and adjuvant treatment outcomes.' 'These results reinforce the data previously presented at ASCO GI, where our tissue-free Latitude MRD assay demonstrated high overall concordance to Signatera™ as well as strong standalone clinical performance,' said Alexey Aleshin, M.D., corporate chief medical officer and general manager of oncology at Natera. 'When offered alongside Signatera, our tissue-free assay gives patients and providers the latitude to get a reliable MRD assessment even when tissue is unavailable.' Notes * MRD = Molecular residual disease About Natera Natera™ is a global leader in cell-free DNA and genetic testing, dedicated to oncology, women's health, and organ health. We aim to make personalized genetic testing and diagnostics part of the standard-of-care to protect health and inform earlier, more targeted interventions that help lead to longer, healthier lives. Natera's tests are supported by more than 300 peer-reviewed publications that demonstrate excellent performance. Natera operates ISO 13485-certified and CAP-accredited laboratories certified under the Clinical Laboratory Improvement Amendments (CLIA) in Austin, Texas, and San Carlos, California. For more information, visit Forward-Looking Statements All statements other than statements of historical facts contained in this press release are forward-looking statements and are not a representation that Natera's plans, estimates, or expectations will be achieved. These forward-looking statements represent Natera's expectations as of the date of this press release, and Natera disclaims any obligation to update the forward-looking statements. These forward-looking statements are subject to known and unknown risks and uncertainties that may cause actual results to differ materially, including with respect to whether the results of clinical or other studies will support the use of our product offerings, the impact of results of such studies, our expectations of the reliability, accuracy and performance of our tests, or of the benefits of our tests and product offerings to patients, providers and payers. Additional risks and uncertainties are discussed in greater detail in 'Risk Factors' in Natera's recent filings on Forms 10-K and 10-Q and in other filings Natera makes with the SEC from time to time. These documents are available at and
Forbes
17 hours ago
- Forbes
See A Full ‘Buck Moon' And Venus Rise As Jupiter Returns: The Night Sky This Week
The full buck moon rises above the skyline of lower Manhattan and One World Trade Center in New York ... More City on July 16, 2019 as seen from Kearney, New Jersey. (Photo by) Each Monday, I pick out North America's celestial highlights for the week ahead (which also apply to mid-northern latitudes in the Northern Hemisphere). Check my main feed for more in-depth articles on stargazing, astronomy, eclipses and more. The Night Sky This Week: July 7-13, 2025 As July unfolds, the night sky is busy with action. A nearly full moon begins the week with a visit to the red supergiant Antares. Venus continues to dazzle as the 'Morning Star' reaches its highest pre-dawn altitude, while Jupiter makes a subtle return to the morning twilight. By week's end, a full 'Buck Moon' lights up the sky, and two summer meteor showers ramp up. Here's everything you need to know about stargazing and astronomy this week: Monday, July 7: Moon Meets Antares Monday, July 7: Moon Meets Antares Look southeast after sunset tonight, and you'll see a 92%-illuminated waxing gibbous moon just four degrees below Antares, the brightest star in the constellation Scorpius. Tuesday, July 8: Venus Reaches Its Peak Tuesday, July 8: Venus Reaches Its Peak Venus reaches its highest point in the morning sky today during its current apparition as the bright 'Morning Star." Look to the east-northeast about 30 minutes before sunrise, and there'll be no mistaking the bright planet about 25 degrees above the horizon. From now through July 21, it will be especially prominent in the pre-dawn hour. Wednesday, July 9: Jupiter Reappears After a few weeks, hidden by the sun's glare as, from our point of view, it passed behind our star, the giant planet Jupiter this morning returns to the pre-dawn sky. Catch it rising in the constellation Gemini just before sunrise, shining at 1.9 magnitude. Venus, meanwhile, continues its eastward journey, edging closer to Aldebaran in the constellation Taurus. Thursday, July 10: The Full 'Buck Moon' Rises Tonight marks the first full moon of summer in the Northern Hemisphere — the 'Buck Moon.' Named for the fresh antler growth of deer during this time, it's also known as the Hay Moon and Thunder Moon. The moon officially reaches full phase at 4:38 p.m. EDT, but the best show will be at moonrise where you are. Head outside at dusk and watch it rise as an enormous, orange orb on the eastern horizon. Because this full moon comes shortly after the solstice, it will stay low in the southern sky and set in the southwest during dawn. Saturday, July 12: Venus Meets Aldebaran Saturday, July 12: Venus Meets Aldebaran Rise early this morning for a striking close encounter in the constellation Taurus. Venus will appear about three degrees above Aldebaran, while just above will be the shimmering Pleiades star cluster. It's a spectacular target for the naked eye. Today is their closest approach, but this trio will remain fabulous for a few more mornings yet. Sunday, July 13: Summer Meteor Season Begins Tonight brings the official start of two overlapping meteor showers — the Delta Aquarids and Alpha Capricornids. Though neither will peak until July 30, tonight is the first night when shooting stars may grace the sky. The showers tend to produce slow, steady meteors, best viewed from dark locations in the pre-dawn hours. They're best seen as an added bonus to a stargazing session; don't make special plans for these two. The times and dates given apply to mid-northern latitudes. For the most accurate location-specific information, consult online planetariums like Stellarium. Wishing you clear skies and wide eyes.
