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Detection of X-ray Emission from a Bright Long-Period Radio Transient
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...
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| creator | Wang, Ziteng Rea, Nanda Bao, Tong Kaplan, David L Lenc, Emil Wadiasingh, Zorawar Hare, Jeremy Zic, Andrew Anumarlapudi, Akash Bera, Apurba Paz Beniamini Cooper, A J Clarke, Tracy E Deller, Adam T Dawson, J R Glowacki, Marcin Hurley-Walker, Natasha McSweeney, S J Polisensky, Emil J Peters, Wendy M Younes, George Bannister, Keith W Caleb, Manisha Dage, Kristen C James, Clancy W Kasliwal, Mansi M Karambelkar, Viraj Lower, Marcus E Mori, Kaya Stella Koch Ocker Pérez-Torres, Miguel Qiu, Hao Kovi Rose Shannon, Ryan M Taub, Rhianna Wang, Fayin Wang, Yuanming Zhao, Zhenyin Bhat, N D R Dobie, Dougal Driessen, Laura N Murphy, Tara Jaini, Akhil Deng, Xinping Jahns-Schindler, Joscha N Lee, Y W J Pritchard, Joshua Tuthill, John Thyagarajan, Nithyanandan |
| description | 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. |
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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. 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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.</description><subject>Binary stars</subject><subject>Companion stars</subject><subject>Luminosity</subject><subject>Magnetars</subject><subject>Magnetic properties</subject><subject>Neutron stars</subject><subject>Pulsars</subject><subject>Radio emission</subject><subject>Transients (astronomy)</subject><subject>White dwarf stars</subject><subject>X-ray 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R</au><au>Glowacki, Marcin</au><au>Hurley-Walker, Natasha</au><au>McSweeney, S J</au><au>Polisensky, Emil J</au><au>Peters, Wendy M</au><au>Younes, George</au><au>Bannister, Keith W</au><au>Caleb, Manisha</au><au>Dage, Kristen C</au><au>James, Clancy W</au><au>Kasliwal, Mansi M</au><au>Karambelkar, Viraj</au><au>Lower, Marcus E</au><au>Mori, Kaya</au><au>Stella Koch Ocker</au><au>Pérez-Torres, Miguel</au><au>Qiu, Hao</au><au>Kovi Rose</au><au>Shannon, Ryan M</au><au>Taub, Rhianna</au><au>Wang, Fayin</au><au>Wang, Yuanming</au><au>Zhao, Zhenyin</au><au>Bhat, N D R</au><au>Dobie, Dougal</au><au>Driessen, Laura N</au><au>Murphy, Tara</au><au>Jaini, Akhil</au><au>Deng, Xinping</au><au>Jahns-Schindler, Joscha N</au><au>Lee, Y W J</au><au>Pritchard, Joshua</au><au>Tuthill, John</au><au>Thyagarajan, Nithyanandan</au><format>book</format><genre>document</genre><ristype>GEN</ristype><atitle>Detection of X-ray Emission from a Bright Long-Period Radio Transient</atitle><jtitle>arXiv.org</jtitle><date>2024-11-26</date><risdate>2024</risdate><eissn>2331-8422</eissn><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.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><oa>free_for_read</oa></addata></record> |
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| source | Publicly Available Content Database |
| subjects | Binary stars Companion stars Luminosity Magnetars Magnetic properties Neutron stars Pulsars Radio emission Transients (astronomy) White dwarf stars X-ray astronomy X-rays |
| title | Detection of X-ray Emission from a Bright Long-Period Radio Transient |
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