近日,西班牙巴伦西亚大学的J. B. Climent及其研究小组取得一项新进展。经过不懈努力,他们找到褐矮星周围存在辐射带的证据
该研究团队利用超长基线干涉测量法对褐矮星LSR J1835+3259进行了空间分辨射电观测,结果显示出扩展的射电发射,形态与存在的辐射带存在相一致。与模型的比较表明,辐射带中含有受磁镜约束的高能粒子。研究人员认为,射电发射的超冷矮星具有偶极有序的磁场,具有辐射带状的形态和极光,类似于木星。
据悉,超冷矮星是一类天体,包括棕矮星和非常低质量的恒星。通过对超冷矮星的射电观测,可以测量它们的亮度,并将亮度作为时间(光曲线)和光谱能量分布的函数。这些观测结果有助于我们深入了解超冷矮星的磁场。
附:英文原文
Title: Evidence for a radiation belt around a brown dwarf
Author: J. B. Climent, J. C. Guirado, M. Pérez-Torres, J. M. Marcaide, L. Pea-Moino
Issue&Volume: 2023-08-24
Abstract: Ultracool dwarfs are a category of astronomical objects including brown dwarfs and very low-mass stars. Radio observations of ultracool dwarfs have measured their brightness as a function of time (light-curves) and spectral energy distributions, providing insight into their magnetic fields. We present spatially resolved radio observations of the brown dwarf LSR J1835+3259 using very long baseline interferometry, which show extended radio emission. The detected morphology is consistent with the presence of a radiation belt. Comparison with models indicates the radiation belt contains energetic particles confined by magnetic mirroring. We argue that radio emitting ultracool dwarfs possess dipole-ordered magnetic fields with radiation belt-like morphologies and aurorae, similar to those of Jupiter.
DOI: 10.1126/science.adg6635
Source: https://www.science.org/doi/full/10.1126/science.adg6635