Dynamical Mass of the Ophiuchus Intermediate-mass Stellar System S1 with DYNAMO-VLBA

The Astronomical Journal Pub Date : 2024-01-05 DOI:10.3847/1538-3881/ad1bd3

Jazm'in Ord'onez-Toro, S. Dzib, L. Loinard, G. Ortiz-Le'on, M. Kounkel, Josep M. Masqu'e, S.-N. X. Medina, P. Galli, T. Dupuy, Luis F. Rodr'iguez, Luis Henry Quiroga-Nuñez

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Abstract

We report dynamical mass measurements of the individual stars in the most luminous and massive stellar member of the nearby Ophiuchus star-forming region, the young tight binary system S1. We combine 28 archival data sets with seven recent proprietary Very Long Baseline Array (VLBA) observations obtained as part of the Dynamical Masses of Young Stellar Multiple Systems with the VLBA project (DYNAMO–VLBA), to constrain the astrometric and orbital parameters of the system, and recover high-accuracy dynamical masses. The primary component, S1A, is found to have a mass of 4.11 ± 0.10 M ⊙, significantly lower than the typical value ∼6 M ⊙ previously reported in the literature. We show that the spectral energy distribution (SED) of S1A can be reproduced by a reddened blackbody with a temperature between roughly 14,000 and 17,000 K. According to evolutionary models, this temperature range corresponds to stellar masses between 4 M ⊙ and 6 M ⊙, so the SED is not a priori inconsistent with the dynamical mass of S1A. The luminosity of S1 derived from SED fitting, however, is only consistent with models for stellar masses above 5 M ⊙. Thus, we cannot reconcile the evolutionary models with the dynamical mass measurement of S1A: The models consistent with the location of S1A in the Hertzsprung-Russel diagram correspond to masses higher by 25% at least than the dynamical mass. For the secondary component, S1B, a mass of 0.831 ± 0.014 M ⊙ is determined, consistent with a low-mass young star. While the radio flux of S1A remains roughly constant throughout the orbit, the flux of S1B is found to be higher near apastron.

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用 DYNAMO-VLBA 测量蛇夫座中等质量恒星系统 S1 的动态质量

我们报告了对邻近蛇夫座恒星形成区中最亮、质量最大的恒星成员--年轻的紧密双星系统 S1 中单个恒星的动力学质量测量结果。我们将 28 个档案数据集与最近在 "利用 VLBA 测定年轻多恒星系统的动力学质量"（DYNAMO-VLBA）项目中获得的 7 个专有甚长基线阵列（VLBA）观测数据结合起来，对该系统的天体测量参数和轨道参数进行了约束，并恢复了高精度的动力学质量。发现主成分 S1A 的质量为 4.11 ± 0.10 M ⊙，明显低于之前文献报道的典型值 ∼6 M ⊙。根据演化模型，这一温度范围对应的恒星质量介于4 M ⊙和6 M ⊙之间，因此S1A的光谱能量分布与它的动力学质量并不矛盾。然而，SED拟合得出的S1光度只与恒星质量大于5 M ⊙的模型相一致。因此，我们无法将演化模型与 S1A 的动力学质量测量结果相协调：与 S1A 在赫兹普朗-鲁塞尔图中的位置相一致的模型对应的质量至少比动力学质量高 25%。次级成分 S1B 的质量为 0.831 ± 0.014 M ⊙，与一颗低质量年轻恒星一致。虽然 S1A 的射电通量在整个轨道上基本保持不变，但发现 S1B 的通量在远地点附近较高。

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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The Astronomical Journal

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