作为长周期射电瞬变机制的白矮星双星中的磁相互作用

arXiv - PHYS - High Energy Astrophysical Phenomena Pub Date : 2024-09-09 DOI:arxiv-2409.05978

Yuanhong Qu, Bing Zhang

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摘要

人们发现了越来越多的长周期射电瞬变体，但它们的物理起源仍有争议。最近，我们发现了一个名为ILT J1101 + 5521的长周期射电瞬变源，它位于一个白矮星（WD）- M矮星（MD）双星系统中，观测到的125.5分钟周期被确定为轨道周期，射电发射阶段与MD位于远端时的会合构造相吻合。我们认为，该系统的射电发射特性可以在磁化的WD和低磁化的MD之间的单极感应磁相互作用模型框架内得到很好的解释，而电子回旋 maser 是最可能的辐射机制。这种机制与木星-木卫二相互作用导致的木星解像发射机制类似。我们认为这种机制至少可以解释一些长周期射电瞬变，尤其是超长周期子群。

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Magnetic Interaction in White Dwarf Binaries as Mechanism for Long-Period Radio Transients

A growing population of long-period radio transients has been discovered and their physical origin is still up to debate. Recently, a new such source named ILT J1101 + 5521 was discovered, which is in a white dwarf (WD) -- M dwarf (MD) binary system, with the observed 125.5 min period being identified as the orbital period and the radio emission phase coinciding with the conjunction configuration when the MD is at the far end. We suggest that the radio emission properties of the system can be well explained within the framework of the unipolar inductor magnetic interaction model between the magnetized WD and the MD with low magnetization, with the electron cyclotron maser being the most likely radiation mechanism. This mechanism is similar to that of Jupiter decametric emission due to Jupiter-Io interaction. We suggest that this mechanism can interpret at least some long-period radio transients, especially the ultra-long period sub-population.

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arXiv - PHYS - High Energy Astrophysical Phenomena

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