A Bayesian analysis of the phase variations of the 26.5 day periodic radio outbursts from the high-mass X-ray binary LS I +61°303 demonstrates a clear periodic modulation on a timescale similar to that previously found for the long-term modulation of the outburst peak flux density. Combining the outburst phase and flux information we obtain a phase and flux modulation period of 1584+14-11 days as well as a more accurate outburst period of 26.4917 ± 0.0025 days. From the shape of the phase and outburst flux modulation we find that larger outbursts occur at an earlier orbital phase, closer to periastron, probably as a result of variations in the wind from the rapidly rotating Be star primary. The phase modulation also suggests a rather sudden onset to each new cycle of mass loss by the Be star. The next maximum in long-term flux modulation is predicted to occur between 1999 February and 2000 March (JD 2,451,233-2,451,633).
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机译:对来自高质量X射线双星LS I + 61°303的26.5天周期性射电爆发的相位变化进行的贝叶斯分析表明,在类似于先前长期观测的长期调制的时间尺度上,存在明显的周期性调制。爆发峰值通量密度。结合爆发相位和流量信息,我们获得了1584 + 14-11天的相位和流量调制周期,以及更精确的26.4917±0.0025天的爆发周期。从相位的形状和爆发通量调制,我们发现较大的爆发发生在更早的轨道相上,更接近于星体,这可能是由于快速旋转的Be恒星初风引起的风的变化。相位调制还表明,Be星在质量损失的每个新循环中都突然出现。长期通量调制的下一个最大值预计将发生在1999年2月至2000年3月之间(JD 2,451,233-2,451,633)。
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