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Correlated X-ray and Millimetre Variability of the Blazar 3C273

Published online by Cambridge University Press:  19 July 2016

I M McHardy
Affiliation:
∗Department of Physics, The University, Southampton SO9 5NH, UK
I Papadakis
Affiliation:
∗Department of Physics, The University, Southampton SO9 5NH, UK
C M Leach
Affiliation:
∗Department of Physics, The University, Southampton SO9 5NH, UK
E I Robson
Affiliation:
#Joint Astronomy Center, Hilo, Hawaii
W Junor
Affiliation:
†National Radio Astronomy Observatory, Soccoro, NM
R Staubert
Affiliation:
♭Astronomisches Institut, Universitat Tubingen, Germany;
H Steppe
Affiliation:
≮Instituto de Radioastonomia Milimetrica, Granada, Spain
W K Gear
Affiliation:
†Royal Observatory Edinburgh, UK

Abstract

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We present the results of X-ray and millimetre monitoring of the blazar 3C273 at 1–2 day intervals over the period 12 December 1992 to 24 January 1993. No large flares are seen in this period but variations in both wavebands of ∼ 30% on few day timescales are apparent. The ROSAT PSPC X-ray spectrum consists of 2 power-law components with the harder component dominating above 0.5 keV. There is very little correlation between the variability of the soft and hard components. The soft component does not correlate with the millimetre variations, but the hard component correlates reasonably well and leads the millimetre variations by about 10 days. These results show that the hard X-ray component cannot be a simple extrapolation of the millimetre/IR synchrotron component but may be explained as a self-Compton component in a shocked jet.

Type
Variability
Copyright
Copyright © Kluwer 1994 

References

Courvoisier, T. et al. 1990. A & A., 234, 73.Google Scholar
Edelson, R.A. & Krolick, J.H., 1988. ApJ, 333, 646.Google Scholar
Maraschi, L., Ghisellini, G., & Celotti, A., 1992. ApJ, 397, L5.Google Scholar
Marscher, A.P. and Gear, W.K., 1985. ApJ., 298, 114.Google Scholar
Melia, F. & Konigl, A., 1989. ApJ, 340, 162.Google Scholar
Robson, E.I. et al. 1993. Preprint.Google Scholar
Staubert, R., 1992. AIT Preprint 1/92.Google Scholar