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Title:
Discovery of an X-Ray Synchrotron Nebula Associated with the Radio Pulsar PSR B1853+01 in the Supernova Remnant W44
Authors:
Harrus, Ilana M.; Hughes, John P.; Helfand, David J.
Publication:
Astrophysical Journal Letters v.464, p.L161 (ApJL Homepage)
Publication Date:
06/1996
Origin:
APJ
ApJ Keywords:
ISM: INDIVIDUAL ALPHANUMERIC: W44, RADIATION MECHANISMS: NONTHERMAL, ISM: SUPERNOVA REMNANTS, X-RAYS: ISM
DOI:
10.1086/310106
Bibliographic Code:
1996ApJ...464L.161H

Abstract

We report the detection, using data from the Advanced Satellite for Cosmology and Astrophysics (ASCA), of a hard X-ray source in the vicinity of the radio pulsar PSR B1853+01, which is located within the supernova remnant (SNR) W44. PSR B1853+01, a 267 ms pulsar, has to date been detected only in the radio band. Previous observations at soft X-ray energies (e.g., with ROSAT HRI) have failed to detect any significant X-ray emission (pulsed or unpulsed) from the pulsar. In addition, no high-energy emission (>~4 keV) has been detected previously from W44. Over the 0.5--4.0 keV band, the ASCA data show soft thermal emission from W44, with a morphology very similar to that observed earlier by Einstein and ROSAT. In the high-energy band (4.0--9.5 keV), the SNR is, for the most part, invisible, although a source coincident with the position of PSR B1853+01 is evident. The observed ASCA spectra are consistent with a power-law origin (photon index ~2.3) for the X-ray emission from this source at a flux level (flux density ~0.5 mu Jy at 1 keV) consistent with previous upper limits. The maximum allowed size for the source is determined directly from the ASCA data (<5'), while the minimum size is derived from the nondetection of a point source in the ROSAT HRI data (>~30"). Timing analysis of the hard X-ray source failed to detect pulsations at the pulsar's period. Based on these lines of evidence, we conclude that the new hard source in W44 represents an X-ray synchrotron nebula associated with PSR B1853+01, rather than the beamed output of the pulsar itself. This discovery adds W44 to the small group of previously known plerionic SNRs. This nebula lies at the low end of, but is consistent with, the correlation between X-ray luminosity and pulsar spin-down energy loss found for such objects, lending further support to our interpretation.

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