We present a study of the HII regions in the galaxy NGC 6754 from a two
pointing mosaic comprising 197,637 individual spectra, using Integral Field
Spectrocopy (IFS) recently acquired with the MUSE instrument during its Science
Verification program. The data cover the entire galaxy out to ~2 effective
radii (re ), sampling its morphological structures with unprecedented spatial
resolution for a wide-field IFU. A complete census of the H ii regions limited
by the atmospheric seeing conditions was derived, comprising 396 individual
ionized sources. This is one of the largest and most complete catalogue of H ii
regions with spectroscopic information in a single galaxy. We use this
catalogue to derive the radial abundance gradient in this SBb galaxy, finding a
negative gradient with a slope consistent with the characteristic value for
disk galaxies recently reported. The large number of H ii regions allow us to
estimate the typical mixing scale-length (rmix ~0.4 re ), which sets strong
constraints on the proposed mechanisms for metal mixing in disk galaxies, like
radial movements associated with bars and spiral arms, when comparing with
simulations. We found evidence for an azimuthal variation of the oxygen
abundance, that may be related with the radial migration. These results
illustrate the unique capabilities of MUSE for the study of the enrichment
mechanisms in Local Universe galaxies.
Description
[1411.4967] Census of HII regions in NGC 6754 derived with MUSE: Constraints on the metal mixing scale
%0 Generic
%1 sanchez2014census
%A Sánchez, S. F.
%A Galbany, L.
%A Pérez, E.
%A Sánchez-Blázquez, P.
%A Falcón-Barroso, J.
%A Rosales-Ortega, F. F.
%A Sánchez-Menguiano, L.
%A Marino, R.
%A Kuncarayakti, H.
%A Anderson, J. P.
%A Kruehler, T.
%A Cano-Díaz, M.
%A Barrera-Ballesteros, J. K.
%A González-González, J. J.
%D 2014
%K hii metal mixing muse regions
%T Census of HII regions in NGC 6754 derived with MUSE: Constraints on the
metal mixing scale
%U http://arxiv.org/abs/1411.4967
%X We present a study of the HII regions in the galaxy NGC 6754 from a two
pointing mosaic comprising 197,637 individual spectra, using Integral Field
Spectrocopy (IFS) recently acquired with the MUSE instrument during its Science
Verification program. The data cover the entire galaxy out to ~2 effective
radii (re ), sampling its morphological structures with unprecedented spatial
resolution for a wide-field IFU. A complete census of the H ii regions limited
by the atmospheric seeing conditions was derived, comprising 396 individual
ionized sources. This is one of the largest and most complete catalogue of H ii
regions with spectroscopic information in a single galaxy. We use this
catalogue to derive the radial abundance gradient in this SBb galaxy, finding a
negative gradient with a slope consistent with the characteristic value for
disk galaxies recently reported. The large number of H ii regions allow us to
estimate the typical mixing scale-length (rmix ~0.4 re ), which sets strong
constraints on the proposed mechanisms for metal mixing in disk galaxies, like
radial movements associated with bars and spiral arms, when comparing with
simulations. We found evidence for an azimuthal variation of the oxygen
abundance, that may be related with the radial migration. These results
illustrate the unique capabilities of MUSE for the study of the enrichment
mechanisms in Local Universe galaxies.
@misc{sanchez2014census,
abstract = {We present a study of the HII regions in the galaxy NGC 6754 from a two
pointing mosaic comprising 197,637 individual spectra, using Integral Field
Spectrocopy (IFS) recently acquired with the MUSE instrument during its Science
Verification program. The data cover the entire galaxy out to ~2 effective
radii (re ), sampling its morphological structures with unprecedented spatial
resolution for a wide-field IFU. A complete census of the H ii regions limited
by the atmospheric seeing conditions was derived, comprising 396 individual
ionized sources. This is one of the largest and most complete catalogue of H ii
regions with spectroscopic information in a single galaxy. We use this
catalogue to derive the radial abundance gradient in this SBb galaxy, finding a
negative gradient with a slope consistent with the characteristic value for
disk galaxies recently reported. The large number of H ii regions allow us to
estimate the typical mixing scale-length (rmix ~0.4 re ), which sets strong
constraints on the proposed mechanisms for metal mixing in disk galaxies, like
radial movements associated with bars and spiral arms, when comparing with
simulations. We found evidence for an azimuthal variation of the oxygen
abundance, that may be related with the radial migration. These results
illustrate the unique capabilities of MUSE for the study of the enrichment
mechanisms in Local Universe galaxies.},
added-at = {2014-11-19T10:12:14.000+0100},
author = {Sánchez, S. F. and Galbany, L. and Pérez, E. and Sánchez-Blázquez, P. and Falcón-Barroso, J. and Rosales-Ortega, F. F. and Sánchez-Menguiano, L. and Marino, R. and Kuncarayakti, H. and Anderson, J. P. and Kruehler, T. and Cano-Díaz, M. and Barrera-Ballesteros, J. K. and González-González, J. J.},
biburl = {https://www.bibsonomy.org/bibtex/2f6f9f9e5bf86fc2c9e6fcc2a0cf1a592/miki},
description = {[1411.4967] Census of HII regions in NGC 6754 derived with MUSE: Constraints on the metal mixing scale},
interhash = {73b2fae421b035c93e768e9d40ede39d},
intrahash = {f6f9f9e5bf86fc2c9e6fcc2a0cf1a592},
keywords = {hii metal mixing muse regions},
note = {cite arxiv:1411.4967Comment: 13 pages, 7 Figurs, accepted for publishing in A&A},
timestamp = {2014-11-19T10:12:14.000+0100},
title = {Census of HII regions in NGC 6754 derived with MUSE: Constraints on the
metal mixing scale},
url = {http://arxiv.org/abs/1411.4967},
year = 2014
}