http://bear.ras.ucalgary.ca/glen_home_page/lsi/paper/paper.html (Einblicke ins Internet, ~06/1995)

An X-ray Outburst from the Radio Emitting X-ray Binary LSI+61

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A.R. Taylor (University of Calgary)

08.09.02 LSI+61303; 08.05.02; 13.25.5; 13.18.5

Department of Physics and Astronomy, University of Calgary, Calgary, Alberta, T2N 1N4, Canada National Radio Astronomy Observatory, P.O. Box O, Socorro, NM, USA Departament d`Astronomia i Meteorologia, Universitat de Barcelona, Avda Diagonal 647, E-08028 Barcelona, Spain Department of Physics, Royal Military College of Canada, Kingston, Ontario, K7K 5L0, Canada Department of Physics, University of British Columbia Vancouver, British Columbia, V6T 1W5, Canada

An X-ray Outburst from the Radio Emitting X-ray Binary LSI+61

A.R. Taylor 1,2 G. Young 1 M. Peracaula 3 H.T. Kenny 4 P.C. Gregory 5

Wed Apr 26 17:22:02 MDT 1995

Abstract:

Coordinated x-ray and two-frequency radio observations were carried out over one cycle of the periodic, radio-emitting binary system LSI+61, using the ROSAT and VLA observatories. An x-ray outburst, with a duration of about 10 days, was detected. Both the radio and x-ray flux densities varied by a factor of 10, with the x-ray peak occurring at phase 0.5 and the radio peak at phase 0.95. The range of phase of high x-ray emission matches the phase interval during which the source is, on average, active at radio. Timing analysis of the x-ray data failed to detect pulsed emission in the period range of 1.5 milliseconds to 3000 seconds.
We discuss a model in which the x-ray emission is produced in hot circumstellar gas shocked by the expanding plasmon of relativistic electrons that is responsible for the radio outburst. With the known parameters of the circumstellar gas, the binary system and the radio plasmon, such a model is able to reproduce both the luminosity and spectral properties of the keV x-rays, and the timing of the x-ray emission relative to the radio outburst. Inverse-Compton scattering of stellar photons off relativistic particles in the expanding plasmon can account for the -ray luminosity of LSI+61 and the low ratio of x-ray to -ray emission.

stars:individual:LSI+61303 - stars:emission-line, Be - X-rays: stars - Radio continuum: stars

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Glen Young
Wed Apr 26 17:21:11 MDT 1995