We present the results of a recent (March 2011) 160 ks Chandra-LETGS
observation of the Seyfert galaxy NGC 4593, and the analysis of archival X-ray
and UV spectra taken with XMM-Newton and HST/STIS in 2002. We find evidence of
a multi-component warm absorber (WA) in the X-rays with four distinct
ionisation degrees (log xi = 1.0, log xi = 1.7, log xi = 2.4, and log xi = 3.0)
outflowing at several hundreds of km/s. In the UV we detect 15 kinematic
components in the absorbers, blueshifted with respect to the systemic velocity
of the source, ranging from -60 km/s to -1520 km/s. Although the predicted CIV
and NV column densities from the low-ionisation X-ray outflow are in agreement
with those measured for some components in the STIS spectrum, there are
kinematic discrepancies that may prevent both the X-ray and UV absorbers from
originating in the same intervening gas. We derive upper limits on the location
of the absorbers finding that the high-ionisation gas lie within ~6 - 29 pc
from the central ionising source, while the low-ionisation gas is located at
several hundreds of pc. This is consistent with our line of sight passing
through different parts of a stratified wind. The total kinetic energy of the
outflows injected into the surroundings of the host galaxy only accounts for a
tiny fraction of the bolometric luminosity of the source, and it is therefore
unlikely that they may cause a significant impact in the interstellar medium of
NGC 4593 in a given single episode of activity.
%0 Generic
%1 ebrero2013xrayuv
%A Ebrero, J.
%A Kaastra, J. S.
%A Kriss, G. A.
%A de Vries, C. P.
%A Costantini, E.
%D 2013
%K absorption uv wind x-ray
%T The X-ray/UV absorber in NGC 4593
%U http://arxiv.org/abs/1308.1555
%X We present the results of a recent (March 2011) 160 ks Chandra-LETGS
observation of the Seyfert galaxy NGC 4593, and the analysis of archival X-ray
and UV spectra taken with XMM-Newton and HST/STIS in 2002. We find evidence of
a multi-component warm absorber (WA) in the X-rays with four distinct
ionisation degrees (log xi = 1.0, log xi = 1.7, log xi = 2.4, and log xi = 3.0)
outflowing at several hundreds of km/s. In the UV we detect 15 kinematic
components in the absorbers, blueshifted with respect to the systemic velocity
of the source, ranging from -60 km/s to -1520 km/s. Although the predicted CIV
and NV column densities from the low-ionisation X-ray outflow are in agreement
with those measured for some components in the STIS spectrum, there are
kinematic discrepancies that may prevent both the X-ray and UV absorbers from
originating in the same intervening gas. We derive upper limits on the location
of the absorbers finding that the high-ionisation gas lie within ~6 - 29 pc
from the central ionising source, while the low-ionisation gas is located at
several hundreds of pc. This is consistent with our line of sight passing
through different parts of a stratified wind. The total kinetic energy of the
outflows injected into the surroundings of the host galaxy only accounts for a
tiny fraction of the bolometric luminosity of the source, and it is therefore
unlikely that they may cause a significant impact in the interstellar medium of
NGC 4593 in a given single episode of activity.
@misc{ebrero2013xrayuv,
abstract = {We present the results of a recent (March 2011) 160 ks Chandra-LETGS
observation of the Seyfert galaxy NGC 4593, and the analysis of archival X-ray
and UV spectra taken with XMM-Newton and HST/STIS in 2002. We find evidence of
a multi-component warm absorber (WA) in the X-rays with four distinct
ionisation degrees (log xi = 1.0, log xi = 1.7, log xi = 2.4, and log xi = 3.0)
outflowing at several hundreds of km/s. In the UV we detect 15 kinematic
components in the absorbers, blueshifted with respect to the systemic velocity
of the source, ranging from -60 km/s to -1520 km/s. Although the predicted CIV
and NV column densities from the low-ionisation X-ray outflow are in agreement
with those measured for some components in the STIS spectrum, there are
kinematic discrepancies that may prevent both the X-ray and UV absorbers from
originating in the same intervening gas. We derive upper limits on the location
of the absorbers finding that the high-ionisation gas lie within ~6 - 29 pc
from the central ionising source, while the low-ionisation gas is located at
several hundreds of pc. This is consistent with our line of sight passing
through different parts of a stratified wind. The total kinetic energy of the
outflows injected into the surroundings of the host galaxy only accounts for a
tiny fraction of the bolometric luminosity of the source, and it is therefore
unlikely that they may cause a significant impact in the interstellar medium of
NGC 4593 in a given single episode of activity.},
added-at = {2013-08-08T16:51:04.000+0200},
author = {Ebrero, J. and Kaastra, J. S. and Kriss, G. A. and de Vries, C. P. and Costantini, E.},
biburl = {https://www.bibsonomy.org/bibtex/28900c67e0f69e02a9f36d0b2aaa87d0f/miki},
description = {[1308.1555] The X-ray/UV absorber in NGC 4593},
interhash = {a0a56f06c3dfd29f33cf713163b5c8cc},
intrahash = {8900c67e0f69e02a9f36d0b2aaa87d0f},
keywords = {absorption uv wind x-ray},
note = {cite arxiv:1308.1555Comment: 17 pages, 11 figures, 9 tables. Accepted for publication in MNRAS},
timestamp = {2013-08-08T16:51:04.000+0200},
title = {The X-ray/UV absorber in NGC 4593},
url = {http://arxiv.org/abs/1308.1555},
year = 2013
}