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Detector developments for small telescopes

Published online by Cambridge University Press:  04 August 2017

David W. Latham
Affiliation:
Harvard-Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, Massachusetts 02138
John C. Geary
Affiliation:
Harvard-Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, Massachusetts 02138

Abstract

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We describe the performance expected from a new generation of CCD imagers being developed by Tektronix, and we indicate the types of applications, instruments, and computer systems that can best take advantage of these devices on telescopes both large and small. Since these new detectors will be able to reach very faint limits even on small telescopes, we also describe cost-effective television viewing systems suitable for object acquisition and guiding.

Type
I. Telescopes and Instrumentation
Copyright
Copyright © Reidel 1986 

References

Angel, J. R. P., Cromwell, R. H., and Manger, J. 1979 Adv. Electronics Electron Phys. 52, 347.Google Scholar
Carney, B. W. and Latham, D. W. 1985 in IAU Coll. No. 88, Stellar Radial Velocities, Philip, A. G. D. and Latham, D. W., eds., L. Davis Press, Schenectady, p. 139.Google Scholar
Cromwell, R. H. and Angel, J. R. P. 1979 Adv. Electronics Electron Phys. 52, 183.Google Scholar
Cromwell, R. H., Strittmatter, P. A., Allen, R. G., Hege, E. K., Kuhr, H., Marien, K.-H., Funk, H. W., and Frank, K. 1985 Adv. Electronics and Electron Phys. 64A, 77.Google Scholar
de Lapparent, V., Geller, M. J., and Huchra, J. P. 1986 Astrophys. J. Lett. submitted.Google Scholar
Latham, D. W. 1982 in IAU Coll. No. 67, Instrumentation for Astronomy with Large Optical Telescopes, Humphries, C., ed., Reidel, Dordrecht p. 259.Google Scholar