TV Mon - post mass transfer Algol type binary with $δ$ Scuti pulsations in primary component

arXiv - PHYS - Solar and Stellar Astrophysics Pub Date : 2024-09-16 DOI:arxiv-2409.09902

Mikhail Kovalev, Zhenwei Li, Jianping Xiong, Azizbek Matekov, Zhang Bo, Xuefei Chen, Zhanwen Han

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Abstract

We present a study of the detached eclipsing binary TV~Mon using spectra from the LAMOST medium-resolution survey and ASAS-SN, CoRoT photometry. We applied multiple-epochs spectral fitting to derive RV and spectral parameters. The analysis of eclipses in CoRoT data told us relative sizes of the stellar components and almost edge-on circular orbit. Combining spectral and photometrical solution we estimated masses and radii of the components: $M_{A,B}=2.063\pm0.033,~0.218\pm0.004~M_\odot$, $R_{A,B}=2.427\pm0.014,~2.901\pm0.016~R_\odot$. SED analysis and Gaia parallax allowed us to get estimation of temperatures $T_{A,B}=7624^{+194}_{-174},~5184^{+130}_{-123}$ K and distance $d=907\pm11$ pc. We identified three $\delta$ Scuti type pulsation frequencies in primary component, while we also suspect TV~Mon having a long period variability with period $P_{\rm long}\sim128$ days and spot activity in secondary component. This system experienced intensive mass transfer and mass ratio reversal in the past, currently showing no signs of mass transfer in the spectra. The low mass component will lose its outer envelope and shrink to the helium white dwarf, which mass and orbital period are in good agreement with evolutionary models predictions.

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TV Mon - 主成分中存在δ$ Scuti脉冲的质量转移后阿尔戈尔型双星

我们利用来自LAMOST中分辨率巡天的光谱和ASAS-SN、CoRoT光度计，对分离的食双星TV~Mon进行了研究。我们应用多表针光谱拟合来得出RV和光谱参数。CoRoT数据中的日食分析告诉我们恒星成分的相对大小和几乎边缘对齐的圆形轨道。结合光谱和光度法，我们估算出了各部分的质量和半径：$M_{A,B}=2.063/pm0.033,~0.218/pm0.004~M_\odot$, $R_{A,B}=2.427/pm0.014,~2.901/pm0.016~R_\odot$。通过SED分析和盖亚视差，我们可以估算出温度$T_{A,B}=7624^{+194}_{-174},~5184^{+130}_{-123}$ K和距离$d=907\pm11$pc。我们在主成分中发现了三个$\delta$ Scuti型脉动频率，同时我们还怀疑TV~Mon具有长周期变率，周期为$P_{\rm long}\sim128$天，并且在副成分中发现了光斑活动。低质量成分将失去它的外包层，收缩为氦白矮星，其质量和轨道周期与演化模型的预测非常吻合。

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arXiv - PHYS - Solar and Stellar Astrophysics

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