XMM-Newton Observations of Young and Energetic Pulsar J2022+3842

Abstract

We report on XMM-Newton EPIC observations of the young pulsar J2022+3842, with a characteristic age of 8.9 kyr. We detected X-ray pulsations and found the pulsation period P≈ 48.6 ms, and its derivative P≈ 8.6× 10-14, twice larger than the previously reported values. The pulsar exhibits two very narrow (FWHM 1.2 ms) X-ray pulses each rotation, separated by ≈ 0.48 of the period, with a pulsed fraction of ≈ 0.8. Using the correct values of P and P, we calculate the pulsar's spin-down power E=3.0 × 1037 erg s-1 and magnetic field B=2.1× 1012 G. The pulsar spectrum is well modeled with a hard power-law (PL) model (photon index = 0.90.1 , hydrogen column density nH = (2.30.3) × 1022\, cm-2). We detect a weak off-pulse emission which can be modeled with a softer PL ( ≈ 1.70.7), poorly constrained because of contamination in the EPIC-pn timing mode data. The pulsar's X-ray efficiency in the 0.5-8 keV energy band, η PSR= L PSR/E = 2 × 10-4 (D/10\, kpc)2, is similar to those of other pulsars. The XMM-Newton observation did not detect extended emission around the pulsar. Our re-analysis of Chandra X-ray observatory archival data shows a hard, ≈ 0.9 0.5, spectrum and a low efficiency, η PWN 2× 10-5 (D/10\, kpc)2, for the compact pulsar wind nebula, unresolved in the XMM-Newton images.