系外行星吸积监测光谱巡天(ENTROPY)I. 年轻的孤立行星质量天体 2MASS J11151597+1937266 的磁层吸积证据

Gayathri Viswanath, Simon C. Ringqvist, Dorian Demars, Markus Janson, Mickaël Bonnefoy, Yuhiko Aoyama, Gabriel-Dominique Marleau, Catherine Dougados, Judit Szulágyi, Thanawuth Thanathibodee
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引用次数: 0

摘要

由于缺乏观测和理论研究,人们对行星间的吸积现象知之甚少。对正在增殖的气态巨行星发射线的探测有助于对这一过程进行详细研究。这项工作详细分析了为数不多的观测到发射线的年轻行星质量天体之一--孤立的L2矮星2MASS J11151597+1937266的巴尔默线,它的质量为7-21 Mj,年龄为5-45 Myr,位于45+-2pc处。我们利用 VLT/UVES 获得了该目标的第一个高分辨率(R~50,000)光谱,这是一个近紫外到可见光波长(3200-6800AA)的光谱仪。根据H3和H4的不对称线剖面、H3的10%宽度(199+-1km/s)、暂定的He I 6678 AA发射以及来自MIRexcess的圆盘迹象,我们证实了该天体正在进行吸积。利用盖亚更新的视差,我们将其温度修正为1816+-63 K,半径修正为1.5+-0.1Rj。利用一维行星表面冲击模型对观测到的H I剖面进行分析,得出冲击前气体速度为v0=120(+80,-40) km/s,冲击前密度为log(n0/cm^-3)=14(+0,-5)。冲击前速度表明目标质量为 6(+8,-4) Mj。结合 H I 线光度和行星线-Lacc 的比例关系,我们得出质量增殖速率为 1.4(+2.8,-0.9)x10^-8 Mj/年。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exoplanet accretion monitoring spectroscopic survey (ENTROPY) I. Evidence for magnetospheric accretion in the young isolated planetary-mass object 2MASS J11151597+1937266
Accretion among planets is a poorly understood phenomenon, due to lack of both observational and theoretical studies. Detection of emission lines from accreting gas giants facilitate detailed investigations into this process. This work presents a detailed analysis of Balmer lines from one of the few known young, planetary-mass objects with observed emission, the isolated L2 dwarf 2MASS J11151597+1937266 with a mass 7-21 Mj and age 5-45 Myr, located at 45+-2 pc. We obtained the first high-resolution (R~50,000) spectrum of the target with VLT/UVES, a spectrograph in the near-UV to visible wavelengths (3200-6800 AA). We report resolved H3-H6 and He I (5875.6 AA) emission in the spectrum. Based on the asymmetric line profiles of H3 and H4, 10% width of H3 (199+-1 km/s), tentative He I 6678 AA emission and indications of a disk from MIR excess, we confirm ongoing accretion at this object. Using the Gaia update of the parallax, we revise its temperature to 1816+-63 K and radius to 1.5+-0.1 Rj. Analysis of observed H I profiles using 1D planet-surface shock model implies a pre-shock gas velocity of v0=120(+80,-40) km/s and a pre-shock density of log(n0/cm^-3)=14(+0,-5). Pre-shock velocity points to a mass of 6(+8,-4) Mj for the target. Combining the H I line luminosities and planetary Lline-Lacc scaling relations, we derive a mass accretion rate of 1.4(+2.8,-0.9)x10^-8 Mj/yr.
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