A Method of Rapidly Deriving Late-type Contact Binary Parameters and Its Application in the Catalina Sky Survey

arXiv - PHYS - Instrumentation and Methods for Astrophysics Pub Date : 2024-08-09 DOI:arxiv-2408.04896

JinLiang Wang, Xu Ding, JiaJia Li, JianPing Xiong, Qiyuan Cheng, KaiFan Ji

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Abstract

With the continuous development of large optical surveys, a large number of light curves of late-type contact binary systems (CBs) have been released. Deriving parameters for CBs using the the WD program and the PHOEBE program poses a challenge. Therefore, this study developed a method for rapidly deriving light curves based on the Neural Networks (NN) model combined with the Hamiltonian Monte Carlo (HMC) algorithm (NNHMC). The neural network was employed to establish the mapping relationship between the parameters and the pregenerated light curves by the PHOEBE program, and the HMC algorithm was used to obtain the posterior distribution of the parameters. The NNHMC method was applied to a large contact binary sample from the Catalina Sky Survey, and a total of 19,104 late-type contact binary parameters were derived. Among them, 5172 have an inclination greater than 70 deg and a temperature difference less than 400 K. The obtained results were compared with the previous studies for 30 CBs, and there was an essentially consistent goodness-of-fit (R2) distribution between them. The NNHMC method possesses the capability to simultaneously derive parameters for a vast number of targets. Furthermore, it can provide an extremely efficient tool for rapid derivation of parameters in future sky surveys involving large samples of CBs.

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快速推导晚期接触双星参数的方法及其在卡特琳娜巡天中的应用

随着大型光学巡天的不断发展，大量晚期接触双星系统（CBs）的光曲线被公布出来。因此，本研究开发了一种基于神经网络（NN）模型结合哈密尔顿蒙特卡罗（HMC）算法（NNHMC）的快速生成光曲线的方法。神经网络通过 PHOEBE 程序建立参数与再生光曲线之间的映射关系，HMC 算法用于获得参数的后验分布。将NNHMC方法应用于卡塔琳娜巡天中的大量接触双星样本，共得到19104个晚期型接触双星参数。将得到的结果与之前针对 30CB 的研究结果进行了比较，两者之间的拟合优度（R2）分布基本一致。NNHMC 方法具有同时得出大量目标参数的能力。此外，它还可以为今后涉及大量 CBs 样本的天体研究提供一种极其有效的快速推导参数的工具。

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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arXiv - PHYS - Instrumentation and Methods for Astrophysics

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