用宽中子星双星探测螺旋桨状态

IF 1.1 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astronomische Nachrichten Pub Date : 2024-10-27 DOI:10.1002/asna.20240096

M. D. Afonina, S. B. Popov

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引用次数: 0

摘要

我们模拟了中子星双星系统中螺旋桨阶段的持续时间，并计算了各种螺旋桨模型的吸积开始时间。我们将我们的模型应用于共生x射线双星SWIFT J0850.8-4219。除非一个非常慢的自旋下降的螺旋桨正在操作，在螺旋桨阶段找到一个类似SWIFT J0850.8-4219的系统是非常不可能的。然后我们模拟了双星系统中子星与类太阳伴星的演化过程。我们计算了在伴星还在主序星上时，中子星可以开始吸积的轨道分离和磁场。我们证明了对于磁场B > 10 12 $$ B\lesssim {10}^{12} $$ G中子星在轨道距离a > 1 $$ a\gtrsim 1 $$ AU时不会达到螺旋桨阶段。在缓慢的螺旋桨向下旋转的情况下，中子星永远不会开始吸积。对于更快速的螺旋桨自旋下降，中子星可以开始吸积或在螺旋桨阶段花费很长时间，这取决于参数。

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Probing the Propeller Regime With Wide Neutron Star Binaries

We model the duration of the propeller stage in wide binary systems with neutron stars and calculate the time of accretion onset for various propeller models. We apply our modeling to the symbiotic X-ray binary SWIFT J0850.8-4219. Unless a propeller with a very slow spin-down is operating, it is very improbable to find a system similar to SWIFT J0850.8-4219 at the propeller stage. Then we model the evolution of a neutron star in a binary with a solar-like companion. We calculate for which orbital separations and magnetic fields a neutron star can start to accrete while the companion is still on the Main sequence. We demonstrate that for the magnetic field $B ≲ 10^{12}$ G neutron stars at the orbital separation $a ≳ 1$ AU do not reach the propeller stage. In the case of a slow propeller spin-down, neutron stars never start to accrete. For the more rapid propeller spin-down, a neutron star can start to accrete or spend a long time at the propeller stage depending on the parameters.

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来源期刊

Astronomische Nachrichten 地学天文-天文与天体物理

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

4-8 weeks

期刊介绍： Astronomische Nachrichten, founded in 1821 by H. C. Schumacher, is the oldest astronomical journal worldwide still being published. Famous astronomical discoveries and important papers on astronomy and astrophysics published in more than 300 volumes of the journal give an outstanding representation of the progress of astronomical research over the last 180 years. Today, Astronomical Notes/ Astronomische Nachrichten publishes articles in the field of observational and theoretical astrophysics and related topics in solar-system and solar physics. Additional, papers on astronomical instrumentation ground-based and space-based as well as papers about numerical astrophysical techniques and supercomputer modelling are covered. Papers can be completed by short video sequences in the electronic version. Astronomical Notes/ Astronomische Nachrichten also publishes special issues of meeting proceedings.