Julie Moquin, Jordan Ealy, J. Schlieder, Christopher Johns-Krull
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引用次数: 0
摘要
磁重联是恒星耀斑的根本原因,而恒星耀斑与高磁活动区域(如星斑)有关。为了了解恒星活动的趋势,我们需要研究年轻低质量恒星的快速旋转和深度对流是如何加剧恒星活动的。我们分析了凌日系外行星巡天卫星观测到的这类恒星的光变曲线,以研究耀斑时间与星斑调制信号的趋势。耀斑特性和星斑调制的趋势可以提供一种 "定位 "恒星哪个面耀斑更频繁的方法,从而更好地了解它们与活跃区域的关系。我们介绍了对来自五个邻近的年轻运动星团中没有伴星的 M 矮星和 K 矮星的光变曲线的分析,其年龄跨度为 20 ∼ 150 Myr。我们讨论了一种分析耀斑和星斑分布的技术,并描述了我们的研究结果,其中揭示了一种初步的相关性。
Localizing Stellar Activity on Low-mass Stars with the Transiting Exoplanet Survey Satellite
Magnetic reconnection is the underlying cause of stellar flares which are linked to regions of high magnetic activity, like star spots. To understand trends in stellar activity, we need to study how it is heightened by rapid rotation and deep convection in young low-mass stars. We analyze light curves of such stars observed by the Transiting Exoplanet Survey Satellite to investigate trends in flare timing with starspot modulation signals. Trends in flare properties and spot modulation can provide a means to “localize” which face of a star flares more frequently and better understand their association with active regions. We present an analysis of light curves from M and K dwarfs with no companions from five nearby and young moving groups spanning ages ∼20–150 Myr. We discuss a technique to analyze the distribution of flares and star spots and describe our results, which reveal a tentative correlation.
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