Magnetic Fields in a sample of planet-hosting M dwarf stars from Kepler, K2, and TESS observed by APOGEE

arXiv - PHYS - Solar and Stellar Astrophysics Pub Date : 2024-09-10 DOI:arxiv-2409.06637

Fábio Wanderley, Katia Cunha, Verne Smith, Oleg Kochukhov, Diogo Souto, Carlos Allende Prieto, Suvrath Mahadevan, Steven Majewski, Philip Muirhead, Marc Pinsonneault, Ryan Terrien

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Abstract

Stellar magnetic fields have a major impact on space weather around exoplanets orbiting low-mass stars. From an analysis of Zeeman-broadened Fe I lines measured in near-infrared SDSS/APOGEE spectra, mean magnetic fields are determined for a sample of 29 M dwarf stars that host closely orbiting small exoplanets. The calculations employed the radiative transfer code Synmast and MARCS stellar model atmospheres. The sample M dwarfs are found to have measurable mean magnetic fields ranging between $\sim$0.2 to $\sim$1.5 kG, falling in the unsaturated regime on the $<$B$>$ vs P$_{\rm rot}$ plane. The sample systems contain 43 exoplanets, which include 23 from Kepler, nine from K2, and nine from TESS. We evaluated their equilibrium temperatures, insolation, and stellar habitable zones and found that only Kepler-186f and TOI-700d are inside the habitable zones of their stars. Using the derived values of $<$B$>$ for the stars Kepler-186 and TOI-700 we evaluated the minimum planetary magnetic field that would be necessary to shield the exoplanets Kepler-186f and TOI-700d from their host star's winds, considering reference magnetospheres with sizes equal to those of the present-day and young Earth, respectively. Assuming a ratio of 5$\%$ between large-to-small scale B-fields, and a young-Earth magnetosphere, Kepler-186f and TOI-700d would need minimum planetary magnetic fields of, respectively, 0.05 and 0.24 G. These values are considerably smaller than Earth's magnetic field of 0.25 G$\lesssim$B$\lesssim$0.65 G, which suggests that these two exoplanets might have magnetic fields sufficiently strong to protect their atmospheres and surfaces from stellar magnetic fields.

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APOGEE 观测到的开普勒、K2 和 TESS M 矮星样本中的磁场

恒星磁场对围绕低质量恒星运行的系外行星周围的空间天气有重大影响。通过分析近红外SDSS/APOGEE光谱中测得的泽曼展宽铁一色线，确定了29颗M矮星的平均磁场，这些矮星上都有轨道紧密的小型系外行星。计算采用了辐射传递代码Synmast和MARCS恒星大气模型。发现样本M矮星具有可测量的平均磁场，范围在$\sim$0.2到$\sim$1.5 kG之间，在$\sim$ vs P$_{rm rot}$平面上处于非饱和状态。样本系统包含43颗系外行星，其中23颗来自开普勒，9颗来自K2，9颗来自TESS。我们评估了它们的平衡温度、日照和恒星宜居带，发现只有Kepler-186f和TOI-700d位于它们恒星的宜居带内。利用为 Kepler-186 和 TOI-700 这两颗恒星推导出的 $$ 值，我们评估了为使系外行星 Kepler-186f 和 TOI-700d 免受其主恒星风的影响而必须具备的最小行星磁场，并分别考虑了与当今地球和年轻地球大小相等的参考磁场。假定大尺度B场与小尺度B场的比例为5%，以及年轻地球的磁层，Kepler-186f和TOI-700d需要的最小行星磁场分别为0.05和0.24G，这些数值明显小于地球磁场的0.25G/lesssim$B$lesssim$0.65G，这表明这两颗系外行星可能拥有足够强的磁场来保护它们的大气层和表面免受恒星磁场的影响。

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arXiv - PHYS - Solar and Stellar Astrophysics

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