Elias R. Most, Andrei M. Beloborodov and Bart Ripperda
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引用次数: 0
摘要
我们首次进行了跟踪坍缩磁星磁层的磁流体力学模拟。在合并事件中形成的大质量旋转磁星预计会发生坍缩,而且可能发生在合并后数小时。我们的模拟提出了一种新的伽马射线暴(GRB)机制,它是非对准的,形成了合并引力波的延迟高能对应物。模拟结果表明,坍缩会产生一个向外的磁层冲击,冲击后会形成一个热的磁化外流。该外流不含重子,也不受约束,其功率在毫秒级达到峰值。然后,外流受到新生黑洞的环向下调制,在 GRB 尾部形成千赫兹准正常模式。
Monster Shocks, Gamma-Ray Bursts, and Black Hole Quasi-normal Modes from Neutron-star Collapse
We perform the first magnetohydrodynamic simulation tracking the magnetosphere of a collapsing magnetar. The collapse is expected for massive rotating magnetars formed in merger events and may occur many hours after the merger. Our simulation suggests a novel mechanism for a gamma-ray burst (GRB), which is uncollimated and forms a delayed high-energy counterpart of the merger gravitational waves. The simulation shows that the collapse launches an outgoing magnetospheric shock, and a hot magnetized outflow forms behind the shock. The outflow is baryon free and uncollimated, and its power peaks on a millisecond timescale. Then, the outflow becomes modulated by the ring-down of the nascent black hole, imprinting its kilohertz quasi-normal modes on the GRB tail.
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