Using MUSE on the ESO-VLT, we obtained a 4 hour exposure of the z=3.12 radio
galaxy MRC0316-257. We detect features down to ~10^-19 erg/s/cm^2/arcsec^2 with
the highest surface brightness regions reaching more than a factor of 100
higher. We find Ly-alpha emission out to ~250 kpc in projection from the active
galactic nucleus (AGN). The emission shows arc-like morphologies arising at
150-250 kpc from the nucleus in projection with the connected filamentary
structures reaching down into the circum-nuclear region. The most distant arc
is offset by 700 km/s relative to circum-nuclear HeII 1640 emission, which we
assume to be at the systemic velocity. As we probe emission closer to the
nucleus, the filamentary emission narrows in projection on the sky, the
relative velocity decreases to ~250 km/s, and line full-width at half maximum
range from 300-700 km/s. From UV line ratios, the emission on scales of 10s of
kpc from the nucleus along a wide angle in the direction of the radio jets is
clearly excited by the radio jets and ionizing radiation of the AGN. Assuming
ionization equilibrium, the more extended emission outside of the axis of the
jet direction would require 100% or more illumination to explain the observed
surface brightness. High speed (>300 km/s) shocks into rare gas would provide
sufficiently high surface brightness. We discuss the possibility that the arcs
of Ly-alpha emission represent accretion shocks and the filamentary emission
represent gas flows into the halo, and compare our results with gas accretion
simulations.
Описание
[1705.07125] Are we seeing accretion flows in a 250kpc-sized Ly-alpha halo at z=3?
%0 Generic
%1 vernet2017seeing
%A Vernet, J.
%A Lehnert, M. D.
%A De Breuck, C.
%A Villar-Martin, M.
%A Wylezalek, D.
%A Falkendal, T.
%A Drouart, G.
%A Kolwa, S.
%A Humphrey, A.
%A Venemans, B. P.
%A Boulanger, F.
%D 2017
%K Lya galaxy muse nebula radio
%T Are we seeing accretion flows in a 250kpc-sized Ly-alpha halo at z=3?
%U http://arxiv.org/abs/1705.07125
%X Using MUSE on the ESO-VLT, we obtained a 4 hour exposure of the z=3.12 radio
galaxy MRC0316-257. We detect features down to ~10^-19 erg/s/cm^2/arcsec^2 with
the highest surface brightness regions reaching more than a factor of 100
higher. We find Ly-alpha emission out to ~250 kpc in projection from the active
galactic nucleus (AGN). The emission shows arc-like morphologies arising at
150-250 kpc from the nucleus in projection with the connected filamentary
structures reaching down into the circum-nuclear region. The most distant arc
is offset by 700 km/s relative to circum-nuclear HeII 1640 emission, which we
assume to be at the systemic velocity. As we probe emission closer to the
nucleus, the filamentary emission narrows in projection on the sky, the
relative velocity decreases to ~250 km/s, and line full-width at half maximum
range from 300-700 km/s. From UV line ratios, the emission on scales of 10s of
kpc from the nucleus along a wide angle in the direction of the radio jets is
clearly excited by the radio jets and ionizing radiation of the AGN. Assuming
ionization equilibrium, the more extended emission outside of the axis of the
jet direction would require 100% or more illumination to explain the observed
surface brightness. High speed (>300 km/s) shocks into rare gas would provide
sufficiently high surface brightness. We discuss the possibility that the arcs
of Ly-alpha emission represent accretion shocks and the filamentary emission
represent gas flows into the halo, and compare our results with gas accretion
simulations.
@misc{vernet2017seeing,
abstract = {Using MUSE on the ESO-VLT, we obtained a 4 hour exposure of the z=3.12 radio
galaxy MRC0316-257. We detect features down to ~10^-19 erg/s/cm^2/arcsec^2 with
the highest surface brightness regions reaching more than a factor of 100
higher. We find Ly-alpha emission out to ~250 kpc in projection from the active
galactic nucleus (AGN). The emission shows arc-like morphologies arising at
150-250 kpc from the nucleus in projection with the connected filamentary
structures reaching down into the circum-nuclear region. The most distant arc
is offset by 700 km/s relative to circum-nuclear HeII 1640 emission, which we
assume to be at the systemic velocity. As we probe emission closer to the
nucleus, the filamentary emission narrows in projection on the sky, the
relative velocity decreases to ~250 km/s, and line full-width at half maximum
range from 300-700 km/s. From UV line ratios, the emission on scales of 10s of
kpc from the nucleus along a wide angle in the direction of the radio jets is
clearly excited by the radio jets and ionizing radiation of the AGN. Assuming
ionization equilibrium, the more extended emission outside of the axis of the
jet direction would require 100% or more illumination to explain the observed
surface brightness. High speed (>300 km/s) shocks into rare gas would provide
sufficiently high surface brightness. We discuss the possibility that the arcs
of Ly-alpha emission represent accretion shocks and the filamentary emission
represent gas flows into the halo, and compare our results with gas accretion
simulations.},
added-at = {2017-05-23T10:00:33.000+0200},
author = {Vernet, J. and Lehnert, M. D. and De Breuck, C. and Villar-Martin, M. and Wylezalek, D. and Falkendal, T. and Drouart, G. and Kolwa, S. and Humphrey, A. and Venemans, B. P. and Boulanger, F.},
biburl = {https://www.bibsonomy.org/bibtex/2747ee6c739c7413ad4c53d3288afce13/miki},
description = {[1705.07125] Are we seeing accretion flows in a 250kpc-sized Ly-alpha halo at z=3?},
interhash = {c1b418e8389a8a30e370e7bc18810188},
intrahash = {747ee6c739c7413ad4c53d3288afce13},
keywords = {Lya galaxy muse nebula radio},
note = {cite arxiv:1705.07125Comment: 4 pages, 2 figures, 1 table, A&A letters accepted},
timestamp = {2017-05-23T10:00:33.000+0200},
title = {Are we seeing accretion flows in a 250kpc-sized Ly-alpha halo at z=3?},
url = {http://arxiv.org/abs/1705.07125},
year = 2017
}