Properties of observable mixed inertial and gravito-inertial modes in gamma Doradus stars

Astronomy & Astrophysics Pub Date : 2024-07-24 DOI:10.1051/0004-6361/202449965

Marion Galoy, François Lignières, J'erome Ballot

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Abstract

The space missions Kepler and TESS provided a large number of highly detailed time series for main-sequence stars, including gamma Doradus stars. Additionally, numerous gamma Doradus stars are to be observed in the near future thanks to the upcoming PLATO mission. In gamma Doradus stars, gravito-inertial modes in the radiative zone and inertial modes in the convective core can interact resonantly, which translates into the appearance of dip structures in the period spacing of modes. Those dips are information-rich, as they are related to the star core characteristics. Our aim is to characterise these dips according to stellar properties and thus to develop new seismic diagnostic tools to constrain the internal structure of gamma Doradus stars, especially their cores. We used the two-dimensional oscillation code TOP to compute sectoral prograde and axisymmetric dipolar modes in gamma Doradus stars at different rotation rates and evolutionary stages. We then characterised the dips we obtained by their width and location on the period spacing diagram. We found that the width and the location of the dips depend quasi-linearly on the ratio of the rotation rate and the Brunt-Väisälä frequency at the core interface. This allowed us to determine empirical relations between the width and location of dips as well as the resonant inertial mode frequency in the core and the Brunt-Väisälä frequency at the interface between the convective core and the radiative zone. We propose an approximate theoretical model to support and discuss these empirical relations. The empirical relations we established could be applied to dips observed in data, which would allow for the estimation of frequencies of resonant inertial modes in the core and of the Brunt-Väisälä jump at the interface between the core and the radiative zone. As those two parameters are both related to the evolutionary stage of the star, their determination could lead to more accurate estimations of stellar ages.

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伽马多拉多斯星中可观测到的混合惯性和引力惯性模式的特性

空间飞行任务开普勒和 TESS 为包括伽马多拉多斯星在内的主序星提供了大量非常详细的时间序列。此外，即将进行的 PLATO 任务也将在不久的将来观测到大量的伽马多拉多星。在伽马多拉多斯星中，辐射区的重力惯性模式和对流内核的惯性模式会发生共振相互作用，从而导致模式周期间距出现凹陷结构。这些倾角具有丰富的信息，因为它们与恒星内核特征有关。我们的目的是根据恒星的特性来确定这些倾角的特征，从而开发出新的地震诊断工具来制约伽马多拉多星的内部结构，特别是它们的内核。我们使用二维振荡代码 TOP 计算了伽马多拉多星在不同旋转速率和演化阶段的扇形顺行和轴对称偶极模式。然后，我们通过其宽度和在周期间隔图上的位置来描述所获得的倾角。我们发现，凹陷的宽度和位置与内核界面的旋转速率和布伦特-韦赛莱频率之比呈准线性关系。这使我们能够确定凹陷的宽度和位置以及内核中的共振惯性模频率与对流内核和辐射区界面上的布伦特-韦斯莱频率之间的经验关系。我们提出了一个近似理论模型来支持和讨论这些经验关系。我们建立的经验关系可应用于数据中观测到的凹陷，从而估算出内核中共振惯性模式的频率以及内核与辐射区交界处的 Brunt-Väisälä 跳变频率。由于这两个参数都与恒星的演化阶段有关，因此确定这两个参数可以更准确地估计恒星的年龄。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Astronomy & Astrophysics

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