Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-23T14:29:11.187Z Has data issue: false hasContentIssue false

CCD Photometry — Present and Future

Published online by Cambridge University Press:  07 August 2017

Alistair R. Walker*
Affiliation:
Cerro Tololo Inter-American Observatory

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.

I will briefly treat some of the developments relating to CCD photometry which have taken place over the last two to three years, and speculate on those which can be anticipated to take place in the near future. CCDs have been in widespread use as astronomical detectors for slightly more than a decade. For the majority of visual-light projects they have displaced the photographic plate and the photomultiplier as the detector-of-choice, except in applications requiring large area coverage or high time resolution, but even here the development of arrays and the use of more sophisticated electronics has permitted encroachment into these domains. The use of large, low-noise detectors for CCD photometry places stringent demands on telescope optics, instruments, controllers, calibration procedures, data reduction methods and data storage, and forces a holistic approach to managing the data flow from detector to final storage medium.

For an earlier review on this field see Walker (1993); other papers presented at IAU Colloquium No. 136 and IAU Symposium 167 (these proceedings) should be consulted for different topics, alternative viewpoints, and more in-depth discussions of specific subjects.

Type
Section I — Review Papers
Copyright
Copyright © Kluwer 1995 

References

Bell, R. A., Paltaglou, G. and Tripicco, M. J. 1994 MNRAS 268, 771.Google Scholar
Blecha, A. 1995 in IAU Symposium No. 167, New Developments in Array Technology and Applications, Philip, A. G. D., Janes, K. A. and Upgren, A. R., eds, Kluwer Academic Press, Dordrecht, p. 57.CrossRefGoogle Scholar
Cousins, A. W. J. 1993 SAAO Circ. 15, 30.Google Scholar
Ealey, M. and Merkle, F., editors 1994 Adaptive Optics in Astronomy, Proc. SPIE 2201.Google Scholar
Geisler, D., Claria, J. J. and Minniti, D. 1991 AJ 102, 1936.Google Scholar
Grandi, S. 1994, NOAO internal report.Google Scholar
Hamuy, M., Walker, A. R., Suntzeff, N. B., Gigoux, P., Heathcote, S. R. and Phillips, M. M. 1992 PASP 104, 533.Google Scholar
Hamuy, M., Suntzeff, N. B, Heathcote, S. R., Walker, A. R., Gigoux, P. and Phillips, M. M. 1994 PASP 106, 566.Google Scholar
Harris, H. C., Baum, W. A., Hunter, D. A. and Kreidl, T. J. 1991 AJ 101, 677.CrossRefGoogle Scholar
Harris, H. C., Hunter, D. A., Baum, W. A. and Jones, J. H. 1993 AJ 105, 1196.CrossRefGoogle Scholar
Jorden, P. R. 1995 in IAU Symposium No. 167, New Developments in Array Technology and Applications, Philip, A. G. D., Janes, K. A. and Upgren, A. R., eds, Kluwer Academic Press, Dordrecht, p. 27.Google Scholar
Jorden, P. R., Deltorn, J.-M. and Oates, A. P. 1994 Instrumentation in Astronomy VIII, Crawford, D. L. and Craine, E. R., eds., Proc. SPIE 2198, p. 836.Google Scholar
Kilkenny, D. and Laing, J. D. 1992 MNRAS 255, 308.CrossRefGoogle Scholar
Landolt, A. U. 1992 AJ 104, 340.Google Scholar
Leach, R. 1995 in IAU Symposium No. 167, New Developments in Array Technology and Applications, Philip, A. G. D., Janes, K. A. and Upgren, A. R., eds, Kluwer Academic Press, Dordrecht, p. 49.CrossRefGoogle Scholar
Menzies, J. W. 1992 in IAU Colloquium No. 136, Stellar Photometry — Current Techniques and Future Developments, Butler, C. J. and Elliot, I., eds., Cambridge Univ. Press, Cambridge, p. 40.Google Scholar
Pilachowski, C., Seaman, R. and Bohannan, B. 1993 NOAO Newsletter 35, 32.Google Scholar
Ritzmann, B. M. 1992 Bull. Inf. CDS, 40, 41.Google Scholar
Stepp, L. M., editor 1994 Advanced Technology Optical Telescopes V, Proc. SPIE 2199.Google Scholar
Walker, A. R. 1993 in IAU Colloquium No. 136, Stellar Photometry — Current Techniques and Future Developments, Butler, C. J. and Elliot, I., eds., Cambridge Univ. Press, Cambridge, p. 278.Google Scholar
Walker, A. R. 1994 PASP 106, 828.Google Scholar
Walker, A. R. 1995 in IAU Symposium No. 167, New Developments in Array Technology and Applications, Philip, A. G. D., Janes, K. A. and Upgren, A. R., eds, Kluwer Academic Pub., Dordrecht, p. 339.Google Scholar
Windhorst, R. A., Franklin, B. E. and Neuschaefer, L. W. 1994 PASP 106, 798.CrossRefGoogle Scholar