Detection of X-ray Emission from a Bright Long-Period Radio Transient
Ziteng Wang, Nanda Rea, Tong Bao, David L. Kaplan, Emil Lenc, Zorawar Wadiasingh, Jeremy Hare, Andrew Zic, Akash Anumarlapudi, Apurba Bera, Paz Beniamini, A. J. Cooper, Tracy E. Clarke, Adam T. Deller, J. R. Dawson, Marcin Glowacki, Natasha Hurley-Walker, S. J. McSweeney, Emil J. Polisensky, Wendy M. Peters, George Younes, Keith W. Bannister, Manisha Caleb, Kristen C. Dage, Clancy W. James, Mansi M. Kasliwal, Viraj Karambelkar, Marcus E. Lower, Kaya Mori, Stella Koch Ocker, Miguel P’erez-Torres, Hao Qiu, Kovi Rose, Ryan M. Shannon, Rhianna Taub, Fayin Wang, Yuanming Wang, Zhenyin Zhao, N. D. R. Bhat, Dougal Dobie, Laura N. Driessen, Tara Murphy, Akhil Jaini, Xinping Deng, Joscha N. Jahns-Schindler, Y. W. J. Lee, Joshua Pritchard, John Tuthill, Nithyanandan Thyagarajan
arXiv:2411.16606v2 Announce Type: replace
Abstract: Recently, a class of long-period radio transients (LPTs) has been discovered, exhibiting emission on timescales thousands of times longer than radio pulsars. Several models had been proposed implicating either a strong magnetic field neutron star, isolated white dwarf pulsar, or a white dwarf binary system with a low-mass companion. While several models for LPTs also predict X-ray emission, no LPTs have been detected in X-rays despite extensive searches. Here we report the discovery of an extremely bright LPT (10-20 Jy in radio), ASKAP J1832-0911, which has coincident radio and X-ray emission, both with a 44.2-minute period. The X-ray and radio luminosities are correlated and vary by several orders of magnitude. These properties are unique amongst known Galactic objects and require a new explanation. We consider a $gtrsim0.5$ Myr old magnetar with a $gtrsim 10^{13}$ G crustal field, or an extremely magnetised white dwarf in a binary system with a dwarf companion, to be plausible explanations for ASKAP J1832-0911, although both explanations pose significant challenges to formation and emission theories. The X-ray detection also establishes a new class of hour-scale periodic X-ray transients of luminosity $sim10^{33}$ erg/s associated with exceptionally bright coherent radio emission.arXiv:2411.16606v2 Announce Type: replace
Abstract: Recently, a class of long-period radio transients (LPTs) has been discovered, exhibiting emission on timescales thousands of times longer than radio pulsars. Several models had been proposed implicating either a strong magnetic field neutron star, isolated white dwarf pulsar, or a white dwarf binary system with a low-mass companion. While several models for LPTs also predict X-ray emission, no LPTs have been detected in X-rays despite extensive searches. Here we report the discovery of an extremely bright LPT (10-20 Jy in radio), ASKAP J1832-0911, which has coincident radio and X-ray emission, both with a 44.2-minute period. The X-ray and radio luminosities are correlated and vary by several orders of magnitude. These properties are unique amongst known Galactic objects and require a new explanation. We consider a $gtrsim0.5$ Myr old magnetar with a $gtrsim 10^{13}$ G crustal field, or an extremely magnetised white dwarf in a binary system with a dwarf companion, to be plausible explanations for ASKAP J1832-0911, although both explanations pose significant challenges to formation and emission theories. The X-ray detection also establishes a new class of hour-scale periodic X-ray transients of luminosity $sim10^{33}$ erg/s associated with exceptionally bright coherent radio emission.