亚恒星边界磁性行为的转变

IF 5.4 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2024-07-02 DOI:10.1051/0004-6361/202449403
E. Magaudda, B. Stelzer, R. A. Osten, J. S. Pineda, St. Raetz, M. McKay
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引用次数: 0

摘要

我们的目标是加深对主序末期的磁活动和基本动力机制的理解。为此,我们开始利用XMM-牛顿与扬斯基甚大阵列(JVLA)和澳大利亚望远镜紧凑阵列(ATCA)联合收集太阳附近M7...L0矮星样本的X射线和无线电同步观测数据。我们利用俄罗斯 Spektrum-Roentgen-Gamma 飞行任务(SRG)上的成像望远镜阵列 ROentgen 巡天(eROSITA)的全天空巡天的 X 射线数据来补充这些专项活动的数据。此外,我们还利用我们从 Transiting Exoplanet Survey Satellite(TESS)获取的光变曲线中测量到的自转周期对这一多波长数据集进行了补充。我们将样本限制在自转周期小于 1 天的天体上,重点研究在 υ sin i ≈ 38 km s-1 时射电探测率的急剧变化所暗示的磁性行为的转变,对于典型的超酷矮星(UCD)半径 R★ = 0.15 R⊙,对应于 Prot ≈ 0.2 天。最后,为了扩大目标列表,我们汇编了文献中有关超酷矮星的 X 射线和无线电档案数据,并分析了上述 eROSITA 和 TESS 对这些天体的辅助观测数据,这些数据类似于我们专门的 X 射线/无线电活动中的目标。我们为自转周期(Prot)小于 1 天的 26 个 UCD 汇编了最新的射电/X 射线光度(LR,ν - Lx)关系,发现快速自转者与之前研究的早期类型恒星的 "居德尔-本茨 "关系相距最远。射电暴主要出现在(虽然并不完全出现在)极快的 UCD 星上(Prot ≤ 0.2 天),而 X 射线耀斑则出现在整个自转周期范围内的天体上。最后,我们研究了Lx/Lbol与Prot的关系,我们的UCD样本跨越了很大的活动水平范围,即log(Lx/Lbol)=-5.5到log(Lx/Lbol)=-3。事实上,我们发现 X 射线辐射和自转之间没有明显的关系,这加强了之前对晚型矮星双模动力的推测。一个被探测到的射电天体,2MJ0838,其自转周期与极光爆发源的范围一致;虽然它显示出中等程度的圆极化发射,但极化通量没有时间变化。该天体的射电耀斑被解释为陀螺同步辐射,它还显示出 X 射线和光学耀斑。在用专门的 X 射线/无线电活动观测到的 10 个 UCD 中,我们发现了一个缓慢旋转的视极光发射器(2MJ0752),它也是 X 射线最亮的无线电探测到的 UCD 之一。我们推测这颗 UCD 正在经历磁性行为的转变,因为它产生了预期来自质量更高的 M 矮星的特征以及新出现的极光发射证据。
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Transitions in magnetic behavior at the substellar boundary
We aim to advance our understanding of magnetic activity and the underlying dynamo mechanism at the end of the main sequence. To this end, we have embarked on collecting simultaneous X-ray and radio observations for a sample of M7..L0 dwarfs in the solar neighborhood using XMM-Newton jointly with the Jansky Very Large Array (JVLA) and the Australia Telescope Compact Array (ATCA). We supplemented the data from these dedicated campaigns with X-ray data from the all-sky surveys of the ROentgen Survey with an Imaging Telescope Array (eROSITA) on board the Russian Spektrum-Roentgen-Gamma mission (SRG). Moreover, we complement this multiwavelength data set with rotation periods that we measured from light curves acquired with the Transiting Exoplanet Survey Satellite (TESS). We limited the sample to objects with rotation period of < 1 day, focusing on the study of a transition in magnetic behavior suggested by a drastic change in the radio detection rate at υ sin i ≈ 38 km s−1, corresponding to Prot ≈ 0.2 day for a typical ultracool dwarf (UCD) radius of R = 0.15 R. Finally, to enlarge the target list, we have compiled archival X-ray and radio data for UCDs from the literature, and we have analyzed the abovementioned ancillary eROSITA and TESS observations for these objects’ analogous to the targets from our dedicated X-ray/radio campaigns. We compiled the most up to date radio/X-ray luminosity (LR,νLx) relation for 26 UCDs with rotation periods (Prot) lower than 1 day, finding that rapid rotators lie the furthest away from the “Güdel-Benz” relation previously studied for earlier-type stars. Radio bursts are mainly (although not exclusively) experienced by very fast UCDs (Prot ≤ 0.2 day), while X-ray flares are seen by objects spanning the whole range of rotation. Finally, we examined the Lx/Lbol versus Prot relation, where our sample of UCDs spans a large activity level range, that is log(Lx/Lbol) = −5.5 to log(Lx/Lbol) = −3. Although they are all fast rotating, X-ray activity evidently decouples from that of normal dynamos. In fact, we found no evident relation between the X-ray emission and rotation, reinforcing previous speculations on a bimodal dynamo across late-type dwarfs. One radio-detected object, 2MJ0838, has a rotation period consistent with the range of auroral bursting sources; while it displays moderately circularly polarized emission, there is no temporal variation in the polarized flux. A radio flare from this object is interpreted as gyrosynchrotron emission, and it displays X-ray and optical flares. Among the ten UCDs observed with the dedicated X-ray/radio campaigns, we found a slowly rotating apparent auroral emitter (2MJ0752) that is also one of the X-ray brightest radio-detected UCDs. We speculate that this UCD is experiencing a transition in its magnetic behavior since it produces signatures expected from higher-mass M dwarfs along with emerging evidence of auroral emission.
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来源期刊
Astronomy & Astrophysics
Astronomy & Astrophysics 地学天文-天文与天体物理
CiteScore
10.20
自引率
27.70%
发文量
2105
审稿时长
1-2 weeks
期刊介绍: Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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