We report ALMA Early Science observations of the Abell 1835 brightest cluster
galaxy (BCG) in the CO (3-2) and CO (1-0) emission lines. We detect 5E10 solar
masses of molecular gas within 10 kpc of the BCG. Its velocity width of ~130
km/s FWHM is too narrow to be supported by dynamical pressure. The gas may
instead be supported in a rotating, turbulent disk oriented nearly face-on. The
disk is forming stars at a rate of 100-180 solar masses per year. Roughly 1E10
solar masses of molecular gas is projected 3-10 kpc to the north-west and to
the east of the nucleus with line of sight velocities lying between -250 km/s
to +480 km/s with respect to the systemic velocity. Although inflow cannot be
ruled out, the rising velocity gradient with radius is consistent with a broad,
bipolar outflow driven by radio jets or buoyantly rising X-ray cavities. The
molecular outflow may be associated with an outflow of hot gas in Abell 1835
seen on larger scales. Molecular gas is flowing out of the BCG at a rate of
approximately 200 solar masses per year, which is comparable to its star
formation rate. How radio bubbles lift dense molecular gas in their updrafts,
how much gas will be lost to the BCG, and how much will return to fuel future
star formation and AGN activity are poorly understood. Our results imply that
radio-mechanical (radio mode) feedback not only heats hot atmospheres
surrounding elliptical galaxies and BCGs, it is able to sweep higher density
molecular gas away from their centers.
Description
[1309.0013] A Ten Billion Solar Mass Outflow of Molecular Gas Launched by Radio Bubbles in the Abell 1835 Brightest Cluster Galaxy
%0 Generic
%1 mcnamara2013billion
%A McNamara, B. R.
%A Russell, H. R.
%A Nulsen, P. E. J.
%A Edge, A. C.
%A Murray, N. W.
%A Main, R. A.
%A Vantyghem, A. N.
%A Combes, F.
%A Fabian, A. C.
%A Salome, P.
%A Kirkpatrick, C. C.
%A Baum, S. A.
%A Bregman, J. N.
%A Donahue, M.
%A Egami, E.
%A Hamer, S.
%A O'Dea, C. P.
%A Oonk, J. B. R.
%A Tremblay, G.
%A Voit, G. M.
%D 2013
%K alma galaxy molecular outflows radio
%T A Ten Billion Solar Mass Outflow of Molecular Gas Launched by Radio
Bubbles in the Abell 1835 Brightest Cluster Galaxy
%U http://arxiv.org/abs/1309.0013
%X We report ALMA Early Science observations of the Abell 1835 brightest cluster
galaxy (BCG) in the CO (3-2) and CO (1-0) emission lines. We detect 5E10 solar
masses of molecular gas within 10 kpc of the BCG. Its velocity width of ~130
km/s FWHM is too narrow to be supported by dynamical pressure. The gas may
instead be supported in a rotating, turbulent disk oriented nearly face-on. The
disk is forming stars at a rate of 100-180 solar masses per year. Roughly 1E10
solar masses of molecular gas is projected 3-10 kpc to the north-west and to
the east of the nucleus with line of sight velocities lying between -250 km/s
to +480 km/s with respect to the systemic velocity. Although inflow cannot be
ruled out, the rising velocity gradient with radius is consistent with a broad,
bipolar outflow driven by radio jets or buoyantly rising X-ray cavities. The
molecular outflow may be associated with an outflow of hot gas in Abell 1835
seen on larger scales. Molecular gas is flowing out of the BCG at a rate of
approximately 200 solar masses per year, which is comparable to its star
formation rate. How radio bubbles lift dense molecular gas in their updrafts,
how much gas will be lost to the BCG, and how much will return to fuel future
star formation and AGN activity are poorly understood. Our results imply that
radio-mechanical (radio mode) feedback not only heats hot atmospheres
surrounding elliptical galaxies and BCGs, it is able to sweep higher density
molecular gas away from their centers.
@misc{mcnamara2013billion,
abstract = {We report ALMA Early Science observations of the Abell 1835 brightest cluster
galaxy (BCG) in the CO (3-2) and CO (1-0) emission lines. We detect 5E10 solar
masses of molecular gas within 10 kpc of the BCG. Its velocity width of ~130
km/s FWHM is too narrow to be supported by dynamical pressure. The gas may
instead be supported in a rotating, turbulent disk oriented nearly face-on. The
disk is forming stars at a rate of 100-180 solar masses per year. Roughly 1E10
solar masses of molecular gas is projected 3-10 kpc to the north-west and to
the east of the nucleus with line of sight velocities lying between -250 km/s
to +480 km/s with respect to the systemic velocity. Although inflow cannot be
ruled out, the rising velocity gradient with radius is consistent with a broad,
bipolar outflow driven by radio jets or buoyantly rising X-ray cavities. The
molecular outflow may be associated with an outflow of hot gas in Abell 1835
seen on larger scales. Molecular gas is flowing out of the BCG at a rate of
approximately 200 solar masses per year, which is comparable to its star
formation rate. How radio bubbles lift dense molecular gas in their updrafts,
how much gas will be lost to the BCG, and how much will return to fuel future
star formation and AGN activity are poorly understood. Our results imply that
radio-mechanical (radio mode) feedback not only heats hot atmospheres
surrounding elliptical galaxies and BCGs, it is able to sweep higher density
molecular gas away from their centers.},
added-at = {2013-09-03T19:14:05.000+0200},
author = {McNamara, B. R. and Russell, H. R. and Nulsen, P. E. J. and Edge, A. C. and Murray, N. W. and Main, R. A. and Vantyghem, A. N. and Combes, F. and Fabian, A. C. and Salome, P. and Kirkpatrick, C. C. and Baum, S. A. and Bregman, J. N. and Donahue, M. and Egami, E. and Hamer, S. and O'Dea, C. P. and Oonk, J. B. R. and Tremblay, G. and Voit, G. M.},
biburl = {https://www.bibsonomy.org/bibtex/23911d003c7cbceab89bc4fcbc1a03ff0/miki},
description = {[1309.0013] A Ten Billion Solar Mass Outflow of Molecular Gas Launched by Radio Bubbles in the Abell 1835 Brightest Cluster Galaxy},
interhash = {9f95fd373a44f038c416bd43fa91432c},
intrahash = {3911d003c7cbceab89bc4fcbc1a03ff0},
keywords = {alma galaxy molecular outflows radio},
note = {cite arxiv:1309.0013Comment: Five Figures, submitted to ApJ},
timestamp = {2013-09-03T19:14:05.000+0200},
title = {A Ten Billion Solar Mass Outflow of Molecular Gas Launched by Radio
Bubbles in the Abell 1835 Brightest Cluster Galaxy},
url = {http://arxiv.org/abs/1309.0013},
year = 2013
}