Alfredo Biagini, Antonino Petralia, Claudia Di Maio, Lorenzo Betti, Emanuele Pace, Giuseppina Micela
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引用次数: 0
摘要
背景。恒星活动由不同的现象组成,主要是星斑和星团,它是系外行星观测噪声的主要来源之一,因为它会影响光谱和光度观测。如果我们想研究年轻活跃的行星系统,就需要模拟宿主恒星的活动,以消除观测数据中的天体物理噪声。目标我们模拟了测光观测中恒星斑点的贡献。通过使用多波段光度测量,我们提取了星斑的几何特性,并对其温度进行了约束。方法。我们分析了用 Osservatorio Polifunzionale del Chiantio 的 80 厘米 Marcon 望远镜对 V1298 Tau 进行的多波段测光观测,假定在不同波段观测到的测光调制应是由冷斑引起的。结果。我们确定了 V1298 Tau 表面活动区的有效温度,它是由当代存在的光斑和面构成的。我们用太阳数据检验了我们的假设,验证了我们测量到的主要活跃区的大小及其平均有效温度。
Spot Modeling through Multiband Photometry Analysis of V1298 Tau
Context. Stellar activity consists of different phenomena, mainly spots and
faculae, and it is one of the main sources of noise in exoplanetary
observations because it affects both spectroscopic and photometric
observations. If we want to study young active planetary systems we need to
model the activity of the host stars in order to remove astrophysical noise
from our observational data. Aims. We modelled the contribution of stellar
spots in photometric observations. Through the use of multiband photometry, we
aim to extract the geometric properties of the spots and constrain their
temperature. Methods. We analyzed multiband photometric observations acquired
with the 80 cm Marcon telescope of the Osservatorio Polifunzionale del Chianti
of V1298 Tau, assuming that the photometric modulation observed in different
bands should be due to cold spots. Results. We constrained the effective
temperature of the active regions present on the surface of V1298 Tau, which is
composed by the contemporary presence of spots and faculae. We tested our
hypothesis on solar data, verifying that we measure the size of the dominant
active region and its averaged effective temperature.
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