Integral Field Spectroscopy and Spectral Energy Distributions

Chapter
First Online:
Part of the Springer Theses book series (Springer Theses)

Abstract

A large fraction of this thesis is based on spatially resolved spectroscopy data that were obtained using an observational technique called integral field spectroscopy.

Keywords

Star Formation Star Formation Rate Spectral Energy Distribution Data Cube Lenslet Array 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in to check access.

References

  1. Allington-Smith, J., & Content, R. 1998, PASP, 110, 1216Google Scholar
  2. Allington-Smith, J., Murray, G., Content, R., et al. 2002, PASP, 114, 892Google Scholar
  3. Chabrier, G. 2003, PASP, 115, 763Google Scholar
  4. Del Moro, A., Alexander, D. M., Mullaney, J. R., et al. 2013, A&A, 549, A59Google Scholar
  5. Eisenhauer, F., Abuter, R., Bickert, K., et al. 2003, in Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, Vol. 4841, Instrument Design and Performance for Optical/Infrared Ground-based Telescopes, ed. M. Iye & A. F. M. Moorwood, 1548–1561Google Scholar
  6. Kennicutt, Jr., R. C. 1998, ARAA, 36, 189Google Scholar
  7. Le Fèvre, O., Saisse, M., Mancini, D., et al. 2003, in Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, Vol. 4841, Instrument Design and Performance for Optical/Infrared Ground-based Telescopes, ed. M. Iye & A. F. M. Moorwood, 1670–1681Google Scholar
  8. McGregor, P. J., Hart, J., Conroy, P. G., et al. 2003, in Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, Vol. 4841, Instrument Design and Performance for Optical/Infrared Ground-based Telescopes, ed. M. Iye & A. F. M. Moorwood, 1581–1591Google Scholar
  9. Menéndez-Delmestre, K., Blain, A. W., Smail, I., et al. 2009, ApJ, 699, 667Google Scholar
  10. Mullaney, J. R., Alexander, D. M., Goulding, A. D., & Hickox, R. C. 2011, MNRAS, 414, 1082Google Scholar
  11. Nenkova, M., Sirocky, M. M., Ivezić, Ž., & Elitzur, M. 2008, ApJ, 685, 147Google Scholar
  12. Netzer, H., Lutz, D., Schweitzer, M., et al. 2007, ApJ, 666, 806Google Scholar
  13. Richards, G. T., Lacy, M., Storrie-Lombardi, L. J., et al. 2006, APJS, 166, 470Google Scholar
  14. Schartmann, M., Meisenheimer, K., Camenzind, M., et al. 2008, A&A, 482, 67Google Scholar
  15. Sharples, R., Bender, R., Agudo Berbel, A., et al. 2013, The Messenger, 151, 21Google Scholar
  16. Sharples, R. M., Bender, R., Lehnert, M. D., et al. 2004, in Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, Vol. 5492, Ground-based Instrumentation for Astronomy, ed. A. F. M. Moorwood & M. Iye, 1179–1186Google Scholar
  17. Valiante, E., Lutz, D., Sturm, E., et al. 2007, ApJ, 660, 1060Google Scholar

Copyright information

© Springer International Publishing Switzerland 2016

Authors and Affiliations

  1. 1.Department of Physics, Centre for Extragalactic AstronomyDurham UniversityDurhamUK

Personalised recommendations