A Growing Braking Index and Spin-down Swings for the Pulsar PSR B0540–69

Cristóbal M. Espinoza, Lucien Kuiper, Wynn C. G. Ho, Danai Antonopoulou, Zaven Arzoumanian, Alice K. Harding, Paul S. Ray and George Younes
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Abstract

The way pulsars spin down is not understood in detail, but a number of possible physical mechanisms produce a spin-down rate that scales as a power of the rotation rate ( ), with the power-law index n called the braking index. PSR B0540−69 is a pulsar that in 2011, after 16 yr of spinning down with a constant braking index of 2.1, experienced a giant spin-down change and a reduction of its braking index to nearly zero. Here, we show that, following this episode, the braking index monotonically increased during a period of at least 4 yr and stabilized at ∼1.1. We also present an alternative interpretation of a more modest rotational irregularity that occurred in 2023, which was modeled as an anomalous negative step of the rotation rate. Our analysis shows that the 2023 observations can be equally well described as a transient swing of the spin-down rate (lasting ∼65 days), and the Bayesian evidence indicates that this model is strongly preferred.
脉冲星 PSR B0540-69 的增长制动指数和自旋下降摆动
人们对脉冲星自旋下降的方式并不十分清楚,但一些可能的物理机制会产生一种自旋下降速率,这种速率是自转速率( )的幂级数,幂律指数 n 称为制动指数。PSR B0540-69 是一颗脉冲星,在以 2.1 的恒定制动指数自旋下降 16 年后,于 2011 年经历了一次巨大的自旋下降变化,其制动指数几乎降为零。在这里,我们展示了在这一事件之后,制动指数在至少4年的时间里单调上升,并稳定在1.1。我们还对发生在 2023 年的一次较小的自转不规则现象提出了另一种解释,该现象被模拟为自转速率的异常负阶跃。我们的分析表明,2023 年的观测结果同样可以被很好地描述为自旋下降率的瞬时摆动(持续 ∼ 65 天),贝叶斯证据表明这一模型更受青睐。
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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