PSR J1921+3745 lies in the tidal tail of NGC 6791, indicating long-term retention followed by tidal stripping as a source of Galactic neutron stars consistent with low-kick electron-capture supernova formation.
Pulsed radio emission from a Central Compact Object
1 Pith paper cite this work. Polarity classification is still indexing.
abstract
Located at the centres of supernova remnants, central compact objects (CCOs) are among the most puzzling neutron stars. CCOs are bright in thermal X-rays, yet have evaded detection by major radio telescopes for decades, giving rise to the view that they are intrinsically radio-quiet and possess exceptionally weak magnetic fields. Here we show that the prototypical young CCO 1E 1207.4-5209 is in fact a faint radio pulsar rotating at the 0.4s X-ray period. Analysis of its polarization indicates that the radio beam intersects our line of sight near the magnetic pole, affirming its radio faintness' being intrinsic. Once its supernova remnant dissipates, this source would be misidentified as an apparently gigayear-old pulsar. The CCO's low radio flux density may explain why many supernova remnants lack detectable radio pulsars and suggests a hidden population of young, slowly rotating neutron stars.
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A pulsar escaping an ancient open cluster via tidal stripping
PSR J1921+3745 lies in the tidal tail of NGC 6791, indicating long-term retention followed by tidal stripping as a source of Galactic neutron stars consistent with low-kick electron-capture supernova formation.