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Abundance Gradient in the Disk of NGC 300

Published online by Cambridge University Press:  01 June 2008

Marija Vlajić
Affiliation:
Astrophysics, Department of Physics, University of Oxford, Oxford OX1 3RH, UK email: [email protected]
Joss Bland-Hawthorn
Affiliation:
Institute of Astronomy, School of Physics, University of Sydney, Australia email: [email protected]
Ken C. Freeman
Affiliation:
Research School of Astronomy and Astrophysics, Mount Stromlo Observatory, Australian National University, Australia email: [email protected]
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Abstract

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The structure of the outer parts of galactic disks and the nature of their stellar populations are fundamental to our understanding of the formation and evolution of spiral galaxies. Ages and metallicity distributions of stars in the outermost regions of spiral disks provide important clues on how and when the disks are assembled. In our earlier work we trace the extended stellar disk of NGC 300 out to a radius of at least 10 disk scale lengths, with no sign of truncation. We now revisit the outer disk of NGC 300 in order to derive the metallicity distribution of the faint stellar population in its outskirts. We find that predominantly old stellar population in the outer disk exhibits a negative abundance gradient – as predicted by the chemical evolution models – out to about 10 kpc, followed by the metallicity plateau in the outermost disk.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2009

References

Barker, M. K., Sarajedini, A., Geisler, D., Harding, P., & Schommer, R. 2007, AJ, 133, 1125CrossRefGoogle Scholar
Bland-Hawthorn, J., Vlajić, M., Freeman, K. C., & Draine, B. T. 2005, ApJ, 629, 239CrossRefGoogle Scholar
Bullock, J. S. & Johnston, K. V. 2005, ApJ, 635, 931CrossRefGoogle Scholar
Carignan, C. 1985, ApJS, 58, 107CrossRefGoogle Scholar
Carney, B. W., Yong, D., Teixera de Almeida, M. L., & Seitzer, P. 2005, AJ, 130, 1111CrossRefGoogle Scholar
Carollo, D., Beers, T. C., Lee, Y. S., Chiba, M., Norris, J. E., Wilhelm, R., Sivarani, T., Marsteller, B., Munn, J. A., Bailer-Jones, C. A. L., Fiorentin, P. R., & York, D. G. 2007, Nature, 450, 1020CrossRefGoogle Scholar
Chapman, S. C., Ibata, R., Lewis, G. F., Ferguson, A. M. N., Irwin, M., McConnachie, A., & Tanvir, N. 2006, ApJ, 653, 255CrossRefGoogle Scholar
Chiappini, C., Matteucci, F., & Romano, D. 2001, ApJ, 554, 1044CrossRefGoogle Scholar
Collins, J. A., Shull, J. M., & Giroux, M. L. 2003, ApJ, 585, 336CrossRefGoogle Scholar
Collins, J. A., Shull, J. M., & Giroux, M. L.. 2007, ApJ, 657, 271CrossRefGoogle Scholar
Dessauges-Zavadsky, M., Calura, F., Prochaska, J. X., D'Odorico, S., & Matteucci, F. 2004, A&A, 416, 79Google Scholar
Dessauges-Zavadsky, M., Prochaska, J. X., D'Odorico, S., Calura, F., & Matteucci, F. 2006, A&A, 445, 93Google Scholar
Ferguson, A., Irwin, M., Chapman, S., Ibata, R., Lewis, G., & Tanvir, N. 2007, in: Jong, R. S. de (ed.) Island Universes, Structure and Evolution of Disk Galaxies, p. 239Google Scholar
Freeman, K. & Bland-Hawthorn, J. 2002, ARAA, 40, 487CrossRefGoogle Scholar
Freeman, K. C. 1970, ApJ, 160, 811CrossRefGoogle Scholar
Hamann, F. & Ferland, G. 1999, ARAA, 37, 487CrossRefGoogle Scholar
Hou, J. L., Prantzos, N., & Boissier, S. 2000, A&A, 362, 921Google Scholar
Ibata, R. A., Irwin, M. J., Lewis, G. F., Ferguson, A. M. N., & Tanvir, N. 2003, MNRAS (Letters), 340, 21).CrossRefGoogle Scholar
Irwin, M. J., Ferguson, A. M. N., Ibata, R. A., Lewis, G. F., & Tanvir, N. R., 2005, ApJ (Letters), 628, 105).CrossRefGoogle Scholar
Kim, S. C., Sung, H., Park, H. S., & Sung, E.-C. 2004, Chinese Journal of Astronomy and Astrophysics, 4, 299CrossRefGoogle Scholar
Koch, A., Rich, R. M., Reitzel, D. B., Mori, M., Loh, Y.-S., Ibata, R., Martin, N., Chapman, S. C., Ostheimer, J., Majewski, S. R., & Grebel, E. K. 2007, Astronomische Nachrichten, 328, 653Google Scholar
McConnachie, A. W., Chapman, S. C., Ibata, R. A., Ferguson, A. M. N., Irwin, M. J., Lewis, G. F., Tanvir, N. R., & Martin, N. 2006, ApJ (Letters), 647, 25).CrossRefGoogle Scholar
Metcalfe, N., Shanks, T., Campos, A., McCracken, H. J., & Fong, R. 2001, MNRAS, 323, 795CrossRefGoogle Scholar
Molla, M., Ferrini, F., & Diaz, A. I. 1997, ApJ, 475, 519CrossRefGoogle Scholar
Prochaska, J. X., Gawiser, E., Wolfe, A. M., Castro, S., & Djorgovski, S. G. 2003, ApJ (Letters), 595, 9).CrossRefGoogle Scholar
Roškar, R., Debattista, V. P., Stinson, G. S., Quinn, T. R., Kaufmann, T., & Wadsley, J. 2008, ApJ (Letters), 675, 65).CrossRefGoogle Scholar
Sellwood, J. A. & Binney, J. J. 2002, MNRAS, 336, 785CrossRefGoogle Scholar
Sellwood, J. A. & Preto, M. 2002, in: Athanassoula, E., Bosma, A., & Mujica, R., (eds.), Astronomical Society of the Pacific Conference Series, Vol. 275, Disks of Galaxies: Kinematics, Dynamics and Perturbations, p. 281Google Scholar
Stetson, P. B. 1987, PASP, 99, 191CrossRefGoogle Scholar
van der Kruit, P. C. 1979, A&A, 38, 15Google Scholar
VandenBerg, D. A., Bergbusch, P. A., & Dowler, P. D. 2006, ApJS, 162, 375CrossRefGoogle Scholar
Vlajić, M., Bland-Hawthorn, J., & Freeman, K. C. 2008, ApJ submittedGoogle Scholar
Wolfe, A. M., Gawiser, E., & Prochaska, J. X. 2005, ARAA, 43, 861CrossRefGoogle Scholar
Worthey, G., España, A., MacArthur, L. A., & Courteau, S. 2005, ApJ, 631, 820CrossRefGoogle Scholar
Yong, D., Carney, B. W., & Teixera de Almeida, M. L. 2005, AJ, 130, 597CrossRefGoogle Scholar
Yong, D., Carney, B. W., Teixera de Almeida, M. L., & Pohl, B. L. 2006, AJ, 131, 2256CrossRefGoogle Scholar
Zoccali, M., Hill, V., Lecureur, A., Barbuy, B., Renzini, A., Minniti, D., Gomez, A., & Ortolani, S. 2008, A&A, 486, 177Google Scholar