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TIDALLY INDUCED OUTBURSTS IN OJ 287 DURING 2005-2008

Authors :
Kosmas Gazeas
L. O. Takalo
Seppo Mikkola
Mauri Valtonen
Marek Drozdz
J. L. Prieto
Harry Lehto
David W. Atlee
P. G. Niarchos
M. Kurpinska-Winiarska
Gary Poyner
M. Nissinen
Kari Nilsson
Molly S. Peeples
Jin Wu
Carolin Villforth
S.S. Doğru
Alexios Liakos
Waldemar Ogloza
Dragomir Marchev
Elina Lindfors
Darren L. DePoy
Staszek Zola
Roberto J. Assef
Michal Siwak
Xu Zhou
Jennifer C. Yee
Dorota Kozieł
Jonathan C. Bird
M. Winiarski
J. M. Ohlert
A. Mattingly
A. Sillanpää
V.-P. Hentunen
T. Pursimo
M. R. Kidger
Jason D. Eastman
M. Dietrich
Jochen Heidt
Lorna Watson
Kozo Sadakane
Source :
The Astrophysical Journal. 698:781-785
Publication Year :
2009
Publisher :
American Astronomical Society, 2009.

Abstract

The blazar OJ 287 has produced two major optical outburst events during the years 2005-2008. These are the latest in a series of outbursts that have occurred repeatedly at 12 year intervals since early 1900s. It has been possible to explain the historical light curve fairly well by using a binary black hole model where the secondary black hole impacts the accretion disk of the primary twice during the 12 year orbital cycle. We will ask here how well does the latest light-curve fit with this model. We use a 10 million particle disk to model the accretion disk of the primary black hole. The rate of transfer of particles through the 10 Schwarzschild radius cylinder around the primary is followed. The secondary induces an inward flow through this surface. The inward flow rate is compared with the historical light curve as well as with the most recent observations reported in this paper. The observations have been carried out by using a number of small and medium size telescopes in different locations in order to ensure a dense light-curve coverage. The "inflow light curve" and the optical light curve of OJ 287 have a close resemblance to each other. It suggests that the tidally induced accretion flow is responsible for the main features of the optical light curve, with the exception of the quasi-periodic double peaks. It implies a close connection between the accretion disk and the jet where the optical synchrotron emission is presumably generated.

Details

ISSN :
15384357 and 0004637X
Volume :
698
Database :
OpenAIRE
Journal :
The Astrophysical Journal
Accession number :
edsair.doi.dedup.....29ca927706e83eab5e166d04bb143fee