Pairing function of visual binary stars

arXiv: Solar and Stellar Astrophysics Pub Date : 2020-11-15 DOI:10.1093/mnras/staa3601

D. Chulkov

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引用次数: 3

Abstract

An all-sky sample of 1227 visual binaries based on Washington Double Star catalogue is constructed to infer the IMF, mass ratio, and projected distance distribution with a dedicated population synthesis model. Parallaxes from Gaia DR2 and Hipparcos are used to verify the distance distribution. The model is validated on the single-star Tycho-2 sample and successfully reproduces the observed magnitudes and angular separations. The projected separation distribution follows $f(s)\sim s^{-1.2}$ in $10^2 - 2\cdot10^3$ AU range for 1--4.5 $m_{\odot}$ primary stars. Several algorithms are explored as pairing functions. Random pairing is confidently rejected. Primary-constrained (PCP) and split-core pairing (SCP), the scenarios adopting primary component's or total system's mass as fundamental, are considered. The preferred IMF slope is $\alpha \sim 2.8$ either way. A simple power-law mass ratio distribution is unlikely, but the introduction of a twin excess provides a favourable result. PCP with $f(q) \sim q^{-1}$ is preferred with a tiny twin fraction, models with $f(q) \sim q^{-1.5}$ are acceptable when a larger twin excess is allowed. SCP is similar to PCP when a larger slope of the power law is adopted: $f(q)\sim q^{\beta+0.7}$.

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视双星的配对函数

基于华盛顿双星星表，构建了1227颗可见光双星的全天空样本，通过一个专门的人口综合模型来推断IMF、质量比和预测距离分布。用盖亚DR2和喜巴谷的视差来验证距离分布。该模型在单星Tycho-2样品上进行了验证，成功地再现了观测到的星等和角分离。预计的距离分布如下$f(s)\sim s^{-1.2}$在$10^2 - 2\cdot10^3$天文单位范围内，1—4.5 $m_{\odot}$主星。将几种算法作为配对函数进行了探讨。随机配对被自信地拒绝。考虑了以主部件质量或总系统质量为基础的主约束(PCP)和分裂核配对(SCP)两种情况。首选的IMF斜率是$\alpha \sim 2.8$。一个简单的幂律质量比分布是不可能的，但是双过剩的引入提供了一个有利的结果。当双生分数很小时，优先使用$f(q) \sim q^{-1}$的PCP，当允许较大的双生过量时，使用$f(q) \sim q^{-1.5}$的模型是可以接受的。当幂律斜率较大时，SCP与PCP相似:$f(q)\sim q^{\beta+0.7}$。

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arXiv: Solar and Stellar Astrophysics

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