Triple trouble with PSR J1618-3921: Mass measurements and orbital dynamics of an eccentric millisecond pulsar

arXiv - PHYS - High Energy Astrophysical Phenomena Pub Date : 2024-09-05 DOI:arxiv-2409.03615

K. Grunthal, V. Venkatraman Krishnan, P. C. C. Freire, M. Kramer, M. Bailes, S. Buchner, M. Burgay, A. D. Cameron, C. -H. R. Chen, I. Cognard, L. Guillemot, M. E. Lower, A. Possenti, G. Theureau

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Abstract

PSR J1618-3921 is one of five known millisecond pulsars (MSPs) in eccentric orbits (eMPSs) located in the Galactic plane, whose formation is poorly understood. Earlier studies of these objects revealed significant discrepancies between observation and predictions from standard binary evolution scenarios of pulsar-Helium white dwarf binaries. We conducted observations with the L-band receiver of the MeerKAT radio telescope and the UWL receiver of the Parkes Murriyang radio telescope between 2019 and 2021. These data were added to archival observations. We perform an analysis of this joint 23-year-dataset. We use the recent observations to give a brief account of the emission properties of J1618-3921, including a Rotating Vector model fit of the linear polarisation position angle of the pulsar. The long timing baseline allowed for a highly significant measurement of the rate of advance of periastron of $\dot{\omega}$. We can only report a low significance detection of the orthometric Shapiro delay parameters $h_3$ and $\varsigma$, leading to mass estimates of the total and individual binary masses. We detect an unexpected change in the orbital period of, which is an order of magnitude larger and carries an opposite sign to what is expected from Galactic acceleration and the Shklovskii effect. We also detect a significant second derivative of the spin frequency. Furthermore, we report an unexpected, abrupt change of the mean pulse profile in June 2021 with unknown origin. We propose that the anomalous $\dot{P_b}$ and $\ddot{f}$ indicate an additional varying acceleration due to a nearby mass, i.e., the J1618-3921 binary system is likely part of a hierarchical triple. This finding suggests that at least some eMSPs might have formed in triple star systems. Although the uncertainties are large, the binary companion mass is consistent with the $P_b$ - $M_{WD}$ relation.

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PSR J1618-3921 的三重麻烦：偏心毫秒脉冲星的质量测量和轨道动力学

PSR J1618-3921 是位于银河系平面的五颗已知偏心轨道毫秒脉冲星（MSPs）之一，人们对它们的形成过程知之甚少。对这些天体的早期研究表明，观测结果与脉冲星-氦白矮星双星的标准双星演化方案的预测结果之间存在巨大差异。我们利用 MeerKAT 射电望远镜的 L 波段接收器和 ParkesMurriyang 射电望远镜的 UWL 接收器在 2019 年至 2021 年期间进行了观测。这些数据被添加到历史观测数据中。我们对这个 23 年的联合数据集进行了分析。我们利用最近的观测数据简要介绍了 J1618-3921 的发射特性，包括脉冲星线性偏振位置角的旋转矢量模型拟合。我们只能报告对正交沙皮罗延迟参数$h_3$和$\varsigma$的低显著性探测，从而得出双星总质量和单个质量的估计值。我们探测到了一个意想不到的轨道周期变化，它比银河加速度和什克洛夫斯基效应所预期的要大一个数量级，并且具有相反的意义。我们还探测到了自旋频率的重要二阶导数。此外，我们还报告了 2021 年 6 月平均脉冲轮廓的意外突变，其原因不明。我们认为，反常的$\dot{P_b}$和$\dot{f}$表明由于附近质量的存在而产生了额外的变化加速度，也就是说，J1618-3921双星系统很可能是分层三重系统的一部分。尽管不确定性很大，但双星伴星质量与$P_b$ - $M_{WD}$关系是一致的。

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 - High Energy Astrophysical Phenomena

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