Revealing the extended radio emission from the gamma-ray binary HESS J0632+057
J. Mold\'on, M. Rib\'o, J.M. Paredes (Universitat de Barcelona, (IEEC-UB))
TL;DR
This study used VLBI observations to detect and analyze extended, variable radio emission from the gamma-ray binary HESS J0632+057, revealing similarities with other known gamma-ray binaries and supporting its classification.
Contribution
First direct VLBI imaging of HESS J0632+057's extended radio emission, demonstrating its variable morphology and size, and comparing it with other gamma-ray binaries.
Findings
Detected extended radio emission with VLBI at 1.6 GHz.
Observed size of the extended emission ~75 AU.
Found displacement of radio emission peak larger than orbit size.
Abstract
Context. After the detection of a 321-days periodicity in X-rays, HESS J0632+057 can be robustly considered a new member of the selected group of gamma-ray binaries. These sources are known to show extended radio structure at scales of milliarcseconds (mas). Aims. We present the expected extended radio emission on mas scales from HESS J0632+057. Methods. We observed HESS J0632+057 with the European VLBI Network (EVN) at 1.6 GHz in two epochs: during the January/February 2011 X-ray outburst and 30 days later. Results. The VLBI image obtained during the outburst shows a compact ~0.4 mJy radio source, whereas 30 days later the source has faded and appears extended, with a projected size of ~75 AU. The peak of the emission is displaced between runs 21+/-5 AU, which is bigger than the orbit size. The position of the radio source is compatible with the Be star MWC 148, which sets the proper…
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