Lower twin peak quasiperiodic oscillation coherence across luminosity and the tidal stretching time-scale

IF 1.8 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astrophysics and Space Science Pub Date : 2024-07-23 DOI:10.1007/s10509-024-04335-1

Claudio Germanà

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Abstract

In this manuscript we pursue tidal disruption of magnetically confined clumps of matter as candidate to interpret the twin peak high-frequency quasiperiodic oscillations (HF QPOs) seen in low-mass x-ray binaries (LMXBs). In previews works we have proposed the upper HF QPO seen in neutron star (NS) LMXBs be linked to the energy released during tidal circularization of relativistic orbits. The lower HF QPO instead might come from the energy released during spiraling and tidal stretching of the clump. The observed behavior of the coherence \(Q\) of the lower HF QPO was related to both the tidal stretching time-scale of the clump along the orbit and the number of turns clumps make before reaching the innermost stable bound orbit. In this paper we focus on the maximum value of \(Q\) across LMXBs spanning two orders of magnitudes in luminosity. We show the \(Q_{max}\) behavior of the lower HF QPO seen across LMXBs luminosity might be related to tidal stretching time-scale as well, giving an estimate of the magnetic field in the plasma.

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跨光度和潮汐拉伸时间尺度的较低双峰准周期振荡相干性

在这篇手稿中，我们把磁约束物质团块的潮汐破坏作为解释低质量X射线双星（LMXBs）中出现的双峰高频准周期振荡（HF QPOs）的候选对象。在预览作品中，我们提出在中子星（NS）LMXBs中看到的上部高频QPO与相对论轨道潮汐圆化过程中释放的能量有关。而较低的高频QPO则可能来自于星团螺旋和潮汐拉伸过程中释放的能量。观测到的下高频QPO的相干性（Q/）行为与星团沿轨道的潮汐拉伸时间尺度和星团在到达最内层稳定约束轨道之前的旋转次数有关。在本文中，我们重点研究了光度跨越两个数量级的LMXB中的\(Q\)的最大值。我们表明，在整个LMXBs光度范围内看到的低频QPO的\(Q_{max}\)行为可能也与潮汐拉伸时间尺度有关，从而给出了等离子体中磁场的估计值。

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来源期刊

Astrophysics and Space Science 地学天文-天文与天体物理

CiteScore

3.40

自引率

5.30%

发文量

106

审稿时长

2-4 weeks

期刊介绍： Astrophysics and Space Science publishes original contributions and invited reviews covering the entire range of astronomy, astrophysics, astrophysical cosmology, planetary and space science and the astrophysical aspects of astrobiology. This includes both observational and theoretical research, the techniques of astronomical instrumentation and data analysis and astronomical space instrumentation. We particularly welcome papers in the general fields of high-energy astrophysics, astrophysical and astrochemical studies of the interstellar medium including star formation, planetary astrophysics, the formation and evolution of galaxies and the evolution of large scale structure in the Universe. Papers in mathematical physics or in general relativity which do not establish clear astrophysical applications will no longer be considered. The journal also publishes topically selected special issues in research fields of particular scientific interest. These consist of both invited reviews and original research papers. Conference proceedings will not be considered. All papers published in the journal are subject to thorough and strict peer-reviewing. Astrophysics and Space Science features short publication times after acceptance and colour printing free of charge.

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