ROSAT HRI Detection of the 16 ms Pulsar PSR J0537-6910 Inside SNR N157B
Abstract
Based on a deep ROSAT HRI observation, we have detected a pulsed signal in the 0.1-2 keV band from PSR J0537-6910 --- the recently discovered pulsar associated with the supernova remnant N157B in the Large Magellanic Cloud. The measured pulse period 0.01611548182 ms (+- 0.02 ns), Epoch MJD 50540.5, gives a revised linear spin-down rate of 5.1271 × 10-14 s s-1, slightly greater than the previously derived value. The narrow pulse shape (FWHM = 10% duty cycle) in the ROSAT band resembles those seen in both XTE and ASCA data (> 2 keV), but there is also marginal evidence for an interpulse. This ROSAT detection enables us to locate the pulsar at R.A., Dec (J2000) = 5h37m47s.2, -69 10' 23''. With its uncertainty 3'', this position coincides with the centroid of a compact X-ray source. But the pulsed emission accounts for only about 10% of the source luminosity 2 × 1036 ergs-1 in the 0.1-2 keV band. These results support our previous suggestions: (1) The pulsar is moving at a high velocity ( 103 km/s); (2) A bow shock, formed around the pulsar, is responsible for most of the X-ray emission from the source; (3) A collimated outflow from the bow shock region powers a pulsar wind nebula that accounts for an elongated non-thermal radio and X-ray feature to the northwest of the pulsar.
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