Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 437, Issue 2, Pages 1776-1790Publisher
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stt2005
Keywords
galaxies: active; galaxies: individual: ESO 323-G77; X-rays: galaxies
Categories
Funding
- ESA Member States
- NASA
- Spanish MINECO through the Spanish Plan Nacional de Astronomia y Astrofisica [AYA2010-21490-C02-02]
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We report results from multi-epoch (2006-2013) X-ray observations of the polar-scattered Seyfert 1 galaxy ESO 323-G77. The source exhibits remarkable spectral variability from months to years timescales. The observed spectral variability is entirely due to variations of the column density of a neutral absorber towards the intrinsic nuclear continuum. The column density is generally Compton-thin ranging from a few times 10(22) cm(-2) to a few times 10(23) cm(-2). However, one observation reveals a Compton-thick state with column density of the order of 1.5 x 10(24) cm(-2). The observed variability offers a rare opportunity to study the properties of the X-ray absorber(s) in an active galaxy. We identify variable X-ray absorption from two different components, namely (i) a clumpy torus whose individual clumps have a density of <= 1.7 x 10(8) cm(-3) and an average column density of similar to 4 x 10(22) cm(-2), and (ii) the broad-line region (BLR), comprising individual clouds with density of 0.1-8 x 10(9) cm(-3) and column density of 10(23) - 10(24) cm(-2). The derived properties of the clumpy torus can also be used to estimate the torus half-opening angle, which is of the order of 47 degrees. We also confirm the previously reported detection of two highly ionized warm absorbers with outflow velocities of 1000-4000 km s(-1). The observed outflow velocities are consistent with the Keplerian/escape velocity at the BLR. Hence, the warm absorbers may be tentatively identified with the warm/hot intercloud medium which ensures that the BLR clouds are in pressure equilibrium with their surroundings. The BLR line-emitting clouds may well be the cold, dense clumps of this outflow, whose warm/hot phase is likely more homogeneous, as suggested by the lack of strong variability of the warm absorber(s) properties during our monitoring.
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