Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-29T13:33:54.076Z Has data issue: false hasContentIssue false
  • English
  • Français

Application of SALT to the Local Group

Published online by Cambridge University Press:  25 May 2016

R. S. Stobie
R. S. Stobie*
Affiliation:
South African Astronomical Observatory, PO Box 9, Observatory, 7935, South Africa

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In collaboration with international partners, South Africa plans to construct a 9-m class telescope for optical/infrared astronomy. This Southern African Large Telescope (SALT) will be a southern hemisphere equivalent of the Hobby-Eberly Telescope at McDonald Observatory, Texas. By limiting the scientific mission to primarily spectroscopic survey studies, with some reduced imaging capability, it is possible to construct SALT for about one-fifth of the cost of a general-purpose telescope of similar aperture. The telescope will be operated in queue-scheduled mode which opens up new applications in the time-dependent domain. A description of SALT, its capabilities, and samples of the science programme are presented.

Type
Part 5. Wider Implications and Future Prospects
Information
Symposium - International Astronomical Union , Volume 192: The Stellar Content of Local Group Galaxies , 1999 , pp. 471 - 479
Copyright
Copyright © Astronomical Society of the Pacific 1999 

References

Balona, L.A. 1998, in: Science with SALT , (ed.) Buckley, D., SAAO, Cape Town, p. 85 Google Scholar
Buckley, D.A.H. 1995, in: Annual Report of the SAAO , 1995, p. 35 Google Scholar
Buckley, D.A.H. 1998a, in: Science with SALT , (ed.) Buckley, D., SAAO, Cape Town, p. 37 Google Scholar
Buckley, D.A.H. 1998b, Science with SALT , (ed.) Buckley, D., SAAO, Cape Town Google Scholar
Cobos, F.J., Tejada, C. de V., Hill, G.J., Perez, F. 1998, in: Optical Astronomical Instrumentation , SPIE, 3355, p. 424 CrossRefGoogle Scholar
Hill, G.J., Nicklas, H., MacQueen, P.J., Tejada, C., Cobos, F.J., Mitsch, W. 1998, in: Advanced Technology Optical/IR Telescopes VI , SPIE, 3355, p. 375 Google Scholar
Horner, S.D., Engel, L.G., Ramsey, L.W. 1998, in: Optical Astronomical Instrumentation , SPIE, 3355, p. 399 CrossRefGoogle Scholar
Ramsey, L.W. 1995, in; Fiber Optics in Astronomical Applications , SPIE, 2476, p. 20 Google Scholar
Ramsey, L.W. 1998, in: Science with SALT , (ed.) Buckley, D., SAAO, Cape Town, p. 19 Google Scholar
Ramsey, L.W., Adams, M.T., Barnes, T.G., Booth, J.A., Cornell, M.E., Fowler, J.R., Gaffney, N., Glaspey, J.W., Good, J., Kelton, P.W., Krabbendam, V.L., Long, L., Ray, F.B., Ricklefs, R.L., Sage, J., Sebring, T.A., Spies-man, W.J., Steiner, M. 1998, in: Advanced Technology Optical/IR telescopes VI , SPIE, 3352–06Google Scholar
Ramsey, L.W., Sebring, T.A., Sneden, C. 1994, in: Advanced Technology Optical telescopes V , SPIE, 2199, p. 31 Google Scholar
Sebring, T.A., Booth, J.A., Good, J.M., Krabbendam, V.L., Ray, F.B. 1994, in: Advanced Technology Optical Telescopes V , SPIE, 2199, p. 565 CrossRefGoogle Scholar
Sebring, T.A., Ramsey, L.W. 1997, in: Optical Telescopes of Today and Tomorrow , SPIE, 2871, p. 32 Google Scholar
Stobie, R.S. 1998, MNASSA, 57, 21 Google Scholar
Tull, R.G. 1998, in: Optical Astronomical Instrumentation , SPIE, 3355, p. 387 Google Scholar
Tylenda, R. 1998, in: Science with SALT , (ed.) Buckley, D., SAAO, Cape Town, p. 135 Google Scholar
Williams, T.B. 1998, in: Science with SALT , (ed.) Buckley, D., SAAO, Cape Town, p. 75 Google Scholar