B. M. Gaensler et al. 2002 ApJ 569 878 doi:10.1086/339354
B. M. Gaensler1,2,3, J. Arons4, V. M. Kaspi1,5,6, M. J. Pivovaroff1,7, N. Kawai8,9 and K. Tamura10
Show affiliationsWe present observations with the Chandra X-Ray Observatory of the pulsar wind nebula (PWN) powered by the energetic young pulsar B1509-58. These data confirm the complicated morphology of the system indicated by previous observations, and in addition reveal several new components to the nebula. The overall PWN shows a clear symmetry axis oriented at a position angle 150° ± 5° (north through east), which we argue corresponds to the pulsar spin axis. We show that a previously identified radio feature matches well with the overall extent of the X-ray PWN, and propose the former as the long-sought radio nebula powered by the pulsar. We further identify a bright collimated feature, at least 4' long, lying along the nebula's main symmetry axis; we interpret this feature as a physical outflow from the pulsar, and infer a velocity for this jet of greater than 0.2c. The lack of any observed counterjet implies that the pulsar spin axis is inclined at ~30° to the line of sight, contrary to previous estimates made from lower resolution data. We also identify a variety of compact features close to the pulsar. A pair of semicircular X-ray arcs lie 17'' and 30'' to the north of the pulsar; the latter arc shows a highly polarized radio counterpart. We show that these features can be interpreted as ion-compression wisps in a particle-dominated equatorial flow, and use their properties to infer a ratio of electromagnetic to particle energy in pairs at the wind shock σ ~ 0.005, similar to that seen in the Crab Nebula. We further identify several compact knots seen very close to the pulsar; we use these to infer σ < 0.003 at a separation from the pulsar of 0.1 pc.
ISM: individual (G320.4–1.2); ISM: jets and outflows; pulsars: individual (B1509–58); stars: neutron; supernova remnants; X-rays: ISM
Issue 2 (2002 April 20)
Received 2001 October 8, accepted for publication 2001 December 21
B. M. Gaensler et al. 2002 ApJ 569 878
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