Uncovering the radio emission of low-mass systems

Proceedings of European VLBI Network Mini-Symposium and Users' Meeting 2021 — PoS(EVN2021) Pub Date : 2022-02-17 DOI:10.22323/1.399.0016

Juan Bautista Climent Oliver, J. Guirado, M. A. Pérez Torres, M. Z. Zapatero Osorio, O. Zakhozhay

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Abstract

Radio observations allow us to probe the nature of low mass objects, including ultracool dwarfs. Additionally, very long baseline interferometric observations provide the highest angular resolution in astronomy to date, which opens a window to measure dynamical masses of these objects in order to benchmark evolutionary models. We present here a multi-epoch, multi-frequency study of the substellar triple system VHS 1256 − 1257. We have found radio emission at 6 GHz and 33 GHz coincident with the expected position of the central binary of VHS 1256 − 1257. No emission is detected at higher frequencies (230 GHz and 345 GHz) nor at 5 GHz with VLBI arrays. The emission appears to be stable over almost 3 years at 6 GHz. These results can be well explained by non-thermal gyrosynchrotron emission originating at radiation belts present in both components and viewed equatorially. We also share preliminary results from our VLA observations of 5 low-mass binary systems and EVN observations of 4 ultracool dwarfs (including a binary).

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揭示低质量系统的无线电发射

无线电观测使我们能够探测低质量物体的本质，包括超冷矮星。此外，非常长的基线干涉观测提供了迄今为止天文学中最高的角度分辨率，这为测量这些物体的动态质量打开了一扇窗，以便对进化模型进行基准测试。我们在这里提出了对VHS 1256−1257的亚恒星三重系统的多历元，多频率研究。我们发现6 GHz和33 GHz的射电辐射与VHS 1256−1257中心双星的预期位置一致。在更高频率(230 GHz和345 GHz)和5 GHz的VLBI阵列中没有检测到发射。在6千兆赫的频率上，发射似乎在近3年内是稳定的。这些结果可以很好地解释由辐射带的非热回旋同步辐射产生的存在于两个组件和观察赤道。我们还分享了我们对5个低质量双星系统的VLA观测和4个超冷矮星(包括一个双星)的EVN观测的初步结果。

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Proceedings of European VLBI Network Mini-Symposium and Users' Meeting 2021 — PoS(EVN2021)

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