Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics

We introduce a method for modeling disk galaxies designed to take full advantage of data from integral field spectroscopy (IFS). The method fits equilibrium models to simultaneously reproduce the surface brightness, rotation, and velocity dispersion profiles of a galaxy. The models are fully self-co...

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Published in:The Astrophysical Journal
Main Authors: Taranu, D. S., Obreschkow, D., Dubinski, J. J., Fogarty, L. M. R., van de Sande, J., Catinella, B., Cortese, L., Moffett, A., Robotham, A. S. G., Allen, J. T., Bland-Hawthorn, J., Bryant, J. J., Colless, M., Croom, S. M., D’Eugenio, F., Davies, R. L., Drinkwater, M. J., Driver, S. P., Goodwin, M., Konstantopoulos, I. S., Lawrence, J. S., López-Sánchez, R., Lorente, N. P. F., Medling, A. M., Mould, J. R., Owers, M. S., Power, C., Richards, S. N., Tonini, C.
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Galaxies: fundamental parameters
Galaxies: spiral
Galaxies: structure
Methods: data analysis
sami
Online Access:https://researchers.mq.edu.au/en/publications/4606d827-dd6b-4a7b-a804-c9efd96923c9
https://doi.org/10.3847/1538-4357/aa9221
http://www.scopus.com/inward/record.url?scp=85038567386&partnerID=8YFLogxK
id ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/4606d827-dd6b-4a7b-a804-c9efd96923c9
record_format openpolar
spelling ftmacquarieunicr:oai:https://researchers.mq.edu.au:publications/4606d827-dd6b-4a7b-a804-c9efd96923c9 2024-11-03T14:59:20+00:00 Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics Taranu, D. S. Obreschkow, D. Dubinski, J. J. Fogarty, L. M. R. van de Sande, J. Catinella, B. Cortese, L. Moffett, A. Robotham, A. S. G. Allen, J. T. Bland-Hawthorn, J. Bryant, J. J. Colless, M. Croom, S. M. D’Eugenio, F. Davies, R. L. Drinkwater, M. J. Driver, S. P. Goodwin, M. Konstantopoulos, I. S. Lawrence, J. S. López-Sánchez, R. Lorente, N. P. F. Medling, A. M. Mould, J. R. Owers, M. S. Power, C. Richards, S. N. Tonini, C. 2017-11-17 https://researchers.mq.edu.au/en/publications/4606d827-dd6b-4a7b-a804-c9efd96923c9 https://doi.org/10.3847/1538-4357/aa9221 http://www.scopus.com/inward/record.url?scp=85038567386&partnerID=8YFLogxK eng eng info:eu-repo/semantics/closedAccess Taranu , D S , Obreschkow , D , Dubinski , J J , Fogarty , L M R , van de Sande , J , Catinella , B , Cortese , L , Moffett , A , Robotham , A S G , Allen , J T , Bland-Hawthorn , J , Bryant , J J , Colless , M , Croom , S M , D’Eugenio , F , Davies , R L , Drinkwater , M J , Driver , S P , Goodwin , M , Konstantopoulos , I S , Lawrence , J S , López-Sánchez , R , Lorente , N P F , Medling , A M , Mould , J R , Owers , M S , Power , C , Richards , S N & Tonini , C 2017 , ' Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics ' , Astrophysical Journal , vol. 850 , no. 1 , 70 , pp. 1-21 . https://doi.org/10.3847/1538-4357/aa9221 Galaxies: fundamental parameters Galaxies: spiral Galaxies: structure Methods: data analysis article 2017 ftmacquarieunicr https://doi.org/10.3847/1538-4357/aa9221 2024-10-10T00:34:43Z We introduce a method for modeling disk galaxies designed to take full advantage of data from integral field spectroscopy (IFS). The method fits equilibrium models to simultaneously reproduce the surface brightness, rotation, and velocity dispersion profiles of a galaxy. The models are fully self-consistent 6D distribution functions for a galaxy with a Sérsic profile stellar bulge, exponential disk, and parametric dark-matter halo, generated by an updated version of GalactICS. By creating realistic flux-weighted maps of the kinematic moments (flux, mean velocity, and dispersion), we simultaneously fit photometric and spectroscopic data using both maximum-likelihood and Bayesian (MCMC) techniques. We apply the method to a GAMA spiral galaxy (G79635) with kinematics from the SAMI Galaxy Survey and deep g- and r-band photometry from the VST-KiDS survey, comparing parameter constraints with those from traditional 2D bulge–disk decomposition. Our method returns broadly consistent results for shared parameters while constraining the mass-to-light ratios of stellar components and reproducing the H I-inferred circular velocity well beyond the limits of the SAMI data. Although the method is tailored for fitting integral field kinematic data, it can use other dynamical constraints like central fiber dispersions and H I circular velocities, and is well-suited for modeling galaxies with a combination of deep imaging and H I and/or optical spectra (resolved or otherwise). Our implementation (MagRite) is computationally efficient and can generate well-resolved models and kinematic maps in under a minute on modern processors. Article in Journal/Newspaper sami Macquarie University Research Portal The Astrophysical Journal 850 1 70
institution Open Polar
collection Macquarie University Research Portal
op_collection_id ftmacquarieunicr
language English
topic Galaxies: fundamental parameters
Galaxies: spiral
Galaxies: structure
Methods: data analysis
spellingShingle Galaxies: fundamental parameters
Galaxies: spiral
Galaxies: structure
Methods: data analysis
Taranu, D. S.
Obreschkow, D.
Dubinski, J. J.
Fogarty, L. M. R.
van de Sande, J.
Catinella, B.
Cortese, L.
Moffett, A.
Robotham, A. S. G.
Allen, J. T.
Bland-Hawthorn, J.
Bryant, J. J.
Colless, M.
Croom, S. M.
D’Eugenio, F.
Davies, R. L.
Drinkwater, M. J.
Driver, S. P.
Goodwin, M.
Konstantopoulos, I. S.
Lawrence, J. S.
López-Sánchez, R.
Lorente, N. P. F.
Medling, A. M.
Mould, J. R.
Owers, M. S.
Power, C.
Richards, S. N.
Tonini, C.
Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
topic_facet Galaxies: fundamental parameters
Galaxies: spiral
Galaxies: structure
Methods: data analysis
description We introduce a method for modeling disk galaxies designed to take full advantage of data from integral field spectroscopy (IFS). The method fits equilibrium models to simultaneously reproduce the surface brightness, rotation, and velocity dispersion profiles of a galaxy. The models are fully self-consistent 6D distribution functions for a galaxy with a Sérsic profile stellar bulge, exponential disk, and parametric dark-matter halo, generated by an updated version of GalactICS. By creating realistic flux-weighted maps of the kinematic moments (flux, mean velocity, and dispersion), we simultaneously fit photometric and spectroscopic data using both maximum-likelihood and Bayesian (MCMC) techniques. We apply the method to a GAMA spiral galaxy (G79635) with kinematics from the SAMI Galaxy Survey and deep g- and r-band photometry from the VST-KiDS survey, comparing parameter constraints with those from traditional 2D bulge–disk decomposition. Our method returns broadly consistent results for shared parameters while constraining the mass-to-light ratios of stellar components and reproducing the H I-inferred circular velocity well beyond the limits of the SAMI data. Although the method is tailored for fitting integral field kinematic data, it can use other dynamical constraints like central fiber dispersions and H I circular velocities, and is well-suited for modeling galaxies with a combination of deep imaging and H I and/or optical spectra (resolved or otherwise). Our implementation (MagRite) is computationally efficient and can generate well-resolved models and kinematic maps in under a minute on modern processors.
format Article in Journal/Newspaper
author Taranu, D. S.
Obreschkow, D.
Dubinski, J. J.
Fogarty, L. M. R.
van de Sande, J.
Catinella, B.
Cortese, L.
Moffett, A.
Robotham, A. S. G.
Allen, J. T.
Bland-Hawthorn, J.
Bryant, J. J.
Colless, M.
Croom, S. M.
D’Eugenio, F.
Davies, R. L.
Drinkwater, M. J.
Driver, S. P.
Goodwin, M.
Konstantopoulos, I. S.
Lawrence, J. S.
López-Sánchez, R.
Lorente, N. P. F.
Medling, A. M.
Mould, J. R.
Owers, M. S.
Power, C.
Richards, S. N.
Tonini, C.
author_facet Taranu, D. S.
Obreschkow, D.
Dubinski, J. J.
Fogarty, L. M. R.
van de Sande, J.
Catinella, B.
Cortese, L.
Moffett, A.
Robotham, A. S. G.
Allen, J. T.
Bland-Hawthorn, J.
Bryant, J. J.
Colless, M.
Croom, S. M.
D’Eugenio, F.
Davies, R. L.
Drinkwater, M. J.
Driver, S. P.
Goodwin, M.
Konstantopoulos, I. S.
Lawrence, J. S.
López-Sánchez, R.
Lorente, N. P. F.
Medling, A. M.
Mould, J. R.
Owers, M. S.
Power, C.
Richards, S. N.
Tonini, C.
author_sort Taranu, D. S.
title Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
title_short Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
title_full Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
title_fullStr Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
title_full_unstemmed Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
title_sort self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics
publishDate 2017
url https://researchers.mq.edu.au/en/publications/4606d827-dd6b-4a7b-a804-c9efd96923c9
https://doi.org/10.3847/1538-4357/aa9221
http://www.scopus.com/inward/record.url?scp=85038567386&partnerID=8YFLogxK
genre sami
genre_facet sami
op_source Taranu , D S , Obreschkow , D , Dubinski , J J , Fogarty , L M R , van de Sande , J , Catinella , B , Cortese , L , Moffett , A , Robotham , A S G , Allen , J T , Bland-Hawthorn , J , Bryant , J J , Colless , M , Croom , S M , D’Eugenio , F , Davies , R L , Drinkwater , M J , Driver , S P , Goodwin , M , Konstantopoulos , I S , Lawrence , J S , López-Sánchez , R , Lorente , N P F , Medling , A M , Mould , J R , Owers , M S , Power , C , Richards , S N & Tonini , C 2017 , ' Self-consistent bulge/disk/halo galaxy dynamical modeling using integral field kinematics ' , Astrophysical Journal , vol. 850 , no. 1 , 70 , pp. 1-21 . https://doi.org/10.3847/1538-4357/aa9221
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.3847/1538-4357/aa9221
container_title The Astrophysical Journal
container_volume 850
container_issue 1
container_start_page 70
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