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Resolving the Disk-Halo Degeneracy using Planetary Nebulae

Published online by Cambridge University Press:  08 August 2017

S. Aniyan ,
K. C. Freeman ,
M. Arnaboldi ,
O. Gerhard ,
L. Coccato ,
M. Fabricius ,
K. Kuijken  and
M. Merrifield
S. Aniyan
Affiliation:
Research School of Astronomy & Astrophysics, Australian National University email: suryashree.aniyan@anu.edu.au
K. C. Freeman
Affiliation:
Research School of Astronomy & Astrophysics, Australian National University email: suryashree.aniyan@anu.edu.au
M. Arnaboldi
Affiliation:
European Southern Observatory, Garching
O. Gerhard
Affiliation:
Max-Planck-Institut fur Extraterrestrische Physik, Garching
L. Coccato
Affiliation:
European Southern Observatory, Garching
M. Fabricius
Affiliation:
Max-Planck-Institut fur Extraterrestrische Physik, Garching
K. Kuijken
Affiliation:
Leiden Observatory, Leiden University
M. Merrifield
Affiliation:
School of Physics and Astronomy, University of Nottingham
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Abstract

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The decomposition of the 21 cm rotation curve of galaxies into contribution from the disk and dark halo depends on the adopted mass to light ratio (M/L) of the disk. Given the vertical velocity dispersion (σz) of stars in the disk and its scale height (hz), the disk surface density and hence the M/L can be estimated. Earlier works have used this technique to conclude that galaxy disks are submaximal. Here we address an important conceptual problem: star-forming spirals have an old (kinematically hot) disk population and a young cold disk population. Both of these populations contribute to the integrated light spectra from which σz is measured. The measured scale height hz is for the old disk population. In the Jeans equation, σz and hz must pertain to the same population. We have developed techniques to extract the velocity dispersion of the old disk from integrated light spectra and from samples of planetary nebulae. We present the analysis of the disk kinematics of the galaxy NGC 628 using IFU data in the inner regions and planetary nebulae as tracers in the outer regions of the disk. We demonstrate that using the scale height of the old thin disk with the vertical velocity dispersion of the same population, traced by PNe, results in a maximal disk for NGC 628. Our analysis concludes that previous studies underestimate the disk surface mass density by ~ 2, sufficient to make a maximal disk for NGC 628 appear like a submaximal disk.

Keywords

galaxies: kinematics and dynamicsgalaxies: spiralgalaxies: halos
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 12 , Symposium S323: Planetary Nebulae: Multi-Wavelength Probes of Stellar and Galactic Evolution , October 2016 , pp. 284 - 287
Copyright
Copyright © International Astronomical Union 2017 

References

Aniyan, S., et al. 2016, MNRAS, 456, 1484 CrossRefGoogle Scholar
Bershady, M. A., et al. 2011, ApJ, 739, L47 CrossRefGoogle Scholar
Bottema, R. 1997, A & A, 328, 517 Google Scholar
Cappellari, M. & Emsellem, E., 2004, PASP, 116, 138 CrossRefGoogle Scholar
Herrmann, K. A., Ciardullo, R., Feldmeier, J. J., & Vinciguerra, M., 2008, ApJ, 683, 630 CrossRefGoogle Scholar
Herrmann, K. A. & Ciardullo, R., 2009, ApJ, 703, 894 Google Scholar
Herrmann, K. A. & Ciardullo, R., 2009, ApJ, 705, 1686 CrossRefGoogle Scholar
Kormendy, J. & Freeman, K. C. 2016, ApJ, 817, 84 CrossRefGoogle Scholar
Sackett, P. D. 1997, ApJ, 483, 103 Google Scholar
van Albada, T. S., Bahcall, J. N., Begeman, K., & Sancisi, R., 1985, ApJ, 295, 305 CrossRefGoogle Scholar
Yoachim, P. & Dalcanton, J. J., 2006, AJ, 131, 226 CrossRefGoogle Scholar