Latest news with #Z.Wang
Yahoo
4 days ago
- General
- Yahoo
Scientists Are Stumped by Mysterious Pulsing 'Star'
ASKAP J1832 (in circle) captured by th Chandra X-Ray Observatory Credit - X-ray: NASA/CXC/ICRAR, Curtin Univ./Z. Wang et al.; Infrared: NASA/JPL/CalTech/IPAC; Radio: SARAO/MeerKAT; Image processing: NASA/CXC/SAO/N. Wolk Something strange is going on 15,000 light years from Earth. Out at that distant remove, somewhere in the constellation Scutum, an unexplained body is semaphoring into space, blinking in both X-ray and radio frequencies once every 44 minutes in a way never seen by astronomers before. The object could be a white dwarf—an Earth-sized husk that remains after a star has exhausted its nuclear fuel. Or not. It could also be a magnetar—a neutron star with an exceedingly powerful magnetic field. Unless it's not that either. 'Astronomers have looked at countless stars with all kinds of telescopes and we've never seen one that acts this way,' said astronomer Ziteng Wang of Curtin University in Australia, in a statement that accompanied the May 28 release of a paper in Nature describing the object, for which he was lead author. 'It's thrilling to see a new type of behavior for stars.' So what exactly is the mysterious body—which goes by the technical handle ASKAP J1832—and how common is this species of object? ASKAP J1832 is by no means unique in the universe in sending out energy in steady flashes. Pulsars—rapidly spinning neutron stars—do too. But pulsars flash much faster than ASKAP J1832 does, on the order of milliseconds to seconds. In 2022, astronomers discovered a type of object known as a long-period transient, which, like ASKAP J1832, sends out flashes of radio waves on the order of tens of minutes. So far 10 such bodies have been found, but none identical to ASKAP J1832, which is the first to emit X-rays too. What's more, ASKAP J1832's emissions have changed over time. During one observation with NASA's orbiting Chandra X-Ray Observatory in February 2024, the object was prodigiously producing both X-rays and radio waves. During a follow-up observation six months later, the radio waves were 1,000 times fainter and no X-rays were detected. That was a puzzle. 'We looked at several different possibilities involving neutron stars and white dwarfs, either in isolation or with companion stars,' said co-author Nanda Rea of the Institute of Space Sciences in Barcelona, Spain, in a statement. 'So far nothing exactly matches up, but some ideas work better than others.' One of those ideas is the magnetar, but that doesn't fit precisely, due to ASKAP J1832's bright and variable radio emissions. The white dwarf remains a possibility, however in order to produce the amount of energy it does, ASKAP J1832 would have to be orbiting another body in a formation known as a binary system, and so far that second body hasn't been detected. Viewed from Earth, ASKAP J1832 appears to be located in a supernova remnant, a cloud of hot gas and high energy particles that remains after an aging star meets its explosive end. But the authors of the paper concluded that the remnant merely lies in the foreground of the observational field with ASKAP J1832 in the background, the way an earthly cloud can drift in the path of the sun. So for now, the object remains a riddle—one that will be investigated further. 'Finding a mystery like this isn't frustrating,' said co-author Tong Bao of the Italian National Institute for Astrophysics, in a statement. 'It's what makes science exciting.' Write to Jeffrey Kluger at
Toronto Sun
6 days ago
- Science
- Toronto Sun
Astronomers discover strange new celestial object in our Milky Way galaxy
Published May 28, 2025 • 1 minute read Astronomers have discovered a strange new object in our Milky Way galaxy. Photo by NASA/CXC/ICRAR, Curtin Univ., Z. Wang et al. CAPE CANAVERAL, Fla. — Astronomers have discovered a strange new object in our Milky Way galaxy. This advertisement has not loaded yet, but your article continues below. THIS CONTENT IS RESERVED FOR SUBSCRIBERS ONLY Subscribe now to read the latest news in your city and across Canada. Unlimited online access to articles from across Canada with one account. Get exclusive access to the Toronto Sun ePaper, an electronic replica of the print edition that you can share, download and comment on. Enjoy insights and behind-the-scenes analysis from our award-winning journalists. Support local journalists and the next generation of journalists. Daily puzzles including the New York Times Crossword. SUBSCRIBE TO UNLOCK MORE ARTICLES Subscribe now to read the latest news in your city and across Canada. Unlimited online access to articles from across Canada with one account. Get exclusive access to the Toronto Sun ePaper, an electronic replica of the print edition that you can share, download and comment on. Enjoy insights and behind-the-scenes analysis from our award-winning journalists. Support local journalists and the next generation of journalists. Daily puzzles including the New York Times Crossword. REGISTER / SIGN IN TO UNLOCK MORE ARTICLES Create an account or sign in to continue with your reading experience. Access articles from across Canada with one account. Share your thoughts and join the conversation in the comments. Enjoy additional articles per month. Get email updates from your favourite authors. THIS ARTICLE IS FREE TO READ REGISTER TO UNLOCK. Create an account or sign in to continue with your reading experience. Access articles from across Canada with one account Share your thoughts and join the conversation in the comments Enjoy additional articles per month Get email updates from your favourite authors Don't have an account? Create Account An international team reported Wednesday that this celestial object — perhaps a star, pair of stars or something else entirely — is emitting X-rays around the same time it's shooting out radio waves. What's more, the cycle repeats every 44 minutes, at least during periods of extreme activity. Located 15,000 light-years away in a region of the Milky Way brimming with stars, gas and dust, this object could be a highly magnetized dead star like a neutron or white dwarf, Curtin University's Ziteng Andy Wang said in an email from Australia. Or it could be 'something exotic' and unknown, said Wang, lead author of the study published in the journal Nature. NASA's Chandra X-ray Observatory spotted the X-ray emissions by chance last year while focusing on a supernova remnant, or the remains of an exploded star. Wang said it was the first time X-rays had been seen coming from a so-called long-period radio transient, a rare object that cycles through radio signals over tens of minutes. This advertisement has not loaded yet, but your article continues below. A close-up image of ASKAP J1832 in X-ray and radio light. Photo by NASA/CXC/ICRAR, Curtin Univ., Z. Wang et al. Given the uncertain distance, astronomers can't tell if the weird object is associated with the supernova remnant or not. A single light-year is 5.8 trillion miles. The hyperactive phase of this object — designated ASKAP J1832−091 — appeared to last about a month. Outside of that period, the star did not emit any noticeable X-rays. That could mean more of these objects may be out there, scientists said. 'While our discovery doesn't yet solve the mystery of what these objects are and may even deepen it, studying them brings us closer to two possibilities,' Wang said. 'Either we are uncovering something entirely new, or we're seeing a known type of object emitting radio and X-ray waves in a way we've never observed before.' Launched in 1999, Chandra orbits tens of thousands of kilometres above Earth, observing some of the hottest, high-energy objects in the universe. Canada Music Crime Toronto Maple Leafs Sunshine Girls
