Is the Birth of PSR J0538+2817 Accompanied by a Gamma-ray Burst?

Abstract: Recently, the Five-hundred-meter Aperture Spherical radio Telescope (FAST) measured the three-dimensional velocity of PSR J0538+2817 in its associated supernova remnant S147 and found a possible spin-velocity alignment in this pulsar. Here we show that the high velocity and the spin-velocity alignment in this pulsar can be explained by the so-called electromagnetic rocket mechanism. In this framework, the pulsar is kicked in the direction of the spin axis, which naturally explains the spin-velocity alignment. … Show more

“…The reason that in the jittering jets explosion mechanism the NS kick velocity tends to be at a large angle to the main jet-axis is that dense ejecta clumps accelerate the NS by the gravitational tug-boat mechanism (Nordhaus et al 2010;Wongwathanarat et al 2013;Janka 2017; for a different explanation for kick velocities see, e.g., recent studies by Yao et al 2021 andXu et al 2021). Bear & Soker (2018a) argue that either the jets prevent the formation of dense clumps along their propagation direction, or that the dense clumps also supply the gas to the accretion disk that launches the jets.…”

Imprints of the Jittering Jets Explosion Mechanism in the Morphology of the Supernova Remnant SNR 0540-69.3

“…The reason that in the jittering jets explosion mechanism the NS kick velocity tends to be at a large angle to the main jet-axis is that dense ejecta clumps accelerate the NS by the gravitational tug-boat mechanism (Nordhaus et al 2010;Wongwathanarat et al 2013;Janka 2017; for a different explanation for kick velocities see, e.g., recent studies by Yao et al 2021 andXu et al 2021). Bear & Soker (2018a) argue that either the jets prevent the formation of dense clumps along their propagation direction, or that the dense clumps also supply the gas to the accretion disk that launches the jets.…”

Imprints of the Jittering Jets Explosion Mechanism in the Morphology of the Supernova Remnant SNR 0540-69.3