CHIME/FRB/Pulsar discovery of a nearby long period radio transient with a timing glitch
Abstract
We present the discovery of a 421 s long period radio transient (LPT) using the CHIME telescope, CHIME J0630+25. The source is localized to RA=06:30:38.41' Dec=25:26:241' using voltage data acquired with the CHIME baseband system. A timing analysis shows that a model including a glitch is preferred over a non-glitch model with dF/F=1.3×10-6, consistent with other glitching neutron stars. The timing model suggests a surface magnetic field of 1.5×1015 G and a characteristic age of 1.28×106 yrs. A separate line of evidence to support a strong local magnetic field is an abnormally high rotation measure of RM=-347.8(6) rad\, m-2 relative to CHIME J0630+25's modest dispersion measure of 22(1) pc cm-2, implying a dense local magneto-ionic structure. As a result, we believe that CHIME J0630+25 is a magnetized, slowly spinning, isolated neutron star. This marks CHIME J0630+25 as the longest period neutron star and the second long period neutron star with an inferred magnetar-like field. Based on dispersion measure models and comparison with pulsars with distance measurements, CHIME J0630+25 is located at a nearby distance of 170+310-100 pc (95.4\%), making it an ideal candidate for follow-up studies.
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