寻找来自吸积中子星的红移 2.2 MeV 中子捕获线:理论X射线光度要求和INTEGRAL/SPI观测结果

L. Ducci, A. Santangelo, S. Tsygankov, A. Mushtukov, C. Ferrigno
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引用次数: 0

摘要

增殖中子星(NSs)预计会发射出红移2.2 MeV衬里,这是由于俘获了其大气层中$^4$He和较重离子的剥落过程所产生的中子。探测这种辐射将为约束 NSs 的状态方程提供一种独立的方法,并为了解在极端引力和磁场环境中发生的核反应提供宝贵的信息。通常情况下,较高的质量吸积率会导致较高的 2.2 MeV 线强度。然而,当质量吸积率接近临界阈值时,吸积流会因辐射力而减速,导致自由中子的产生效率降低,光谱线的通量也会相应下降。在这项工作中,我们提出了一个理论框架,用于预测在强磁化 NS 中探测红移 2.2 MeV 线所需的最佳 X 射线光度。随着 INTEGRAL 任务接近尾声,我们对具有代表性的增生 NS 样本中这条线的 SPI 数据进行了深入研究。没有发现红移 2.2 MeV 线。对于每条谱线,我们都假定了不同的线宽值,确定了线强度的 3σ 上限。我们的发现表明,要加深对 2.2MeV 线的发射机制以及造成该线的吸积流的理解,就需要未来的 MeV 任务大幅提高灵敏度。例如,对于像 Sco X-1 这样的明亮 X 射线双星,我们至少需要 ~1E-6 ph/cm^2/s 的 3Σ 线点源灵敏度,也就是说,要比目前达到的灵敏度高出两个数量级。[有删节]
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Searching for redshifted 2.2 MeV neutron-capture lines from accreting neutron stars: Theoretical X-ray luminosity requirements and INTEGRAL/SPI observations
Accreting neutron stars (NSs) are expected to emit a redshifted 2.2 MeV line due to the capture of neutrons produced through the spallation processes of $^4$He and heavier ions in their atmospheres. Detecting this emission would offer an independent method for constraining the equation of state of NSs and provide valuable insights into nuclear reactions occurring in extreme gravitational and magnetic environments. Typically, a higher mass accretion rate is expected to result in a higher 2.2 MeV line intensity. However, when the mass accretion rate approaches the critical threshold, the accretion flow is decelerated by the radiative force, leading to a less efficient production of free neutrons and a corresponding drop in the flux of the spectral line. This makes the brightest X-ray pulsars unsuitable candidates for gamma-ray line detection. In this work, we present a theoretical framework for predicting the optimal X-ray luminosity required to detect a redshifted 2.2 MeV line in a strongly magnetized NS. As the INTEGRAL mission nears its conclusion, we have undertaken a thorough investigation of the SPI data of this line in a representative sample of accreting NSs. No redshifted 2.2 MeV line was detected. For each spectrum, we have determined the 3-sigma upper limits of the line intensity, assuming different values of the line width. Our findings suggest that advancing our understanding of the emission mechanism of the 2.2 MeV line, as well as the accretion flow responsible for it, will require a substantial increase in sensitivity from future MeV missions. For example, for a bright X-ray binary such as Sco X-1, we would need at least a 3-sigma line point source sensitivity of ~1E-6 ph/cm^2/s, that is, about two orders of magnitude better than that currently achieved. [Abridged]
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