A new pulsating neutron star in the ultraluminous X-ray source NGC 4559 X7?

IF 5.4 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2025-03-25 DOI:10.1051/0004-6361/202453240

F. Pintore, C. Pinto, G. Rodriguez-Castillo, G. L. Israel, N. O. Pinciroli Vago, S. Motta, F. Barra, D. J. Walton, F. Fuerst, P. Kosec, C. Salvaggio, M. Del Santo, A. Wolter, M. Middleton, A. D’Aì, E. Ambrosi, L. Burderi, M. Imbrogno, R. Salvaterra, A. Robba

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Abstract

Context. Ultraluminous X-ray sources (ULX) are extragalactic objects with observed X-ray luminosities largely above the Eddington limit for a 10 M_{⊙_{black hole. Currently, it is believed that ULXs host super-Eddington accreting neutron stars or stellar mass black holes. However, the exact proportion of the two populations of compact objects is not yet known.Aims. We investigate the properties of the ULX NGC 4559 X7 (hereafter X7), which shows flux variability up to a factor of five on both long (months to years) and short (hours to days) timescales. A flaring activity was also observed during the highest flux epochs of the source. Flares are unpredictable. They have different durations (but similar rising and decay times) and are all flat topped in flux. The latter suggests that at the flare peaks, there is likely a common switch-off mechanism for the accretion onto the compact object.Methods. We analysed all available XMM-Newton and Swift/XRT observations in order to fully investigate the spectral and temporal evolution of X7, looking for short- and long-term variability. We applied a Lomb-Scargle search to look for long-term periodicities. We also looked for coherent signals through accelerated searches that included orbital corrections. We described the X7 spectral properties with two thermal components plus a cut-off power-law model.Results. We found three well-defined spectral states where the spectral variability is mainly driven by the two harder components, with the thermal one clearly following a correlation between its temperature and luminosity. In addition, a pulsed signal at 2.6 s–2.7 s was detected in two XMM-Newton observations. The significance of these coherent signals is relatively weak, but they are found in two different observations with the same parameter space for the orbital properties. If confirmed, the pulsation would imply a high spin-down of 10^{−9^{s s^{−1^{, which could be extreme amongst the known pulsating ULXs, and X7 would become a new extragalactic ULX pulsar.Conclusions. We discuss the spectral and temporal results of X7 in the context of super-Eddington accretion onto a stellar-mass compact object. In particular, we suggest that the source might likely host a neutron star.}}}}}}

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背景超亮度 X 射线源（ULX）是银河系外的天体，其观测到的 X 射线亮度在很大程度上高于 10 M⊙ 黑洞的爱丁顿极限。目前，人们认为超强X射线源寄存着超爱丁顿吸积中子星或恒星质量黑洞。然而，这两类紧凑天体的确切比例尚不清楚。我们研究了ULX NGC 4559 X7（以下简称X7）的性质，它在长时间尺度（数月至数年）和短时间尺度（数小时至数天）上都显示出高达五倍的通量变化。在该光源的最高通量时段还观测到了耀斑活动。耀斑是不可预测的。它们的持续时间各不相同（但上升和衰减时间相似），而且通量都是平顶的。后者表明，在耀斑峰值时，很可能有一个共同的关断机制，使其吸积到致密天体上。我们分析了所有可用的 XMM-Newton 和 Swift/XRT 观测数据，以全面研究 X7 的光谱和时间演变，寻找短期和长期的可变性。我们采用 Lomb-Scargle 搜索法来寻找长期周期性。我们还通过包含轨道修正的加速搜索来寻找相干信号。我们用两个热成分加上一个截止幂律模型来描述 X7 的光谱特性。我们发现了三种定义明确的光谱状态，其光谱变化主要由两个较硬的成分驱动，其中热成分明显遵循其温度和光度之间的相关性。此外，在 XMM-Newton 的两次观测中还发现了一个 2.6 秒-2.7 秒的脉冲信号。这些相干信号的意义相对较弱，但它们是在轨道特性参数空间相同的两次不同观测中发现的。如果得到证实，脉冲将意味着10-9 s s-1的高自旋下降，这在已知的脉冲超新星中可能是极端的，X7将成为一颗新的银河系外超新星脉冲星。我们从超爱丁顿吸积到恒星质量紧凑天体的角度讨论了 X7 的光谱和时间结果。特别是，我们认为该星源很可能寄居着一颗中子星。

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Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.

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