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New Techniques

Published online by Cambridge University Press:  12 April 2016

Jaap Tinbergen
Jaap Tinbergen*
Affiliation:
Sterrewacht Leiden, Kapteyn Sterrenwacht Roden, Netherlands

Abstract

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Routine millimagnitude photometry may require a new approach to reduction of photometric errors. Such an approach is outlined in this paper; it stresses elimination of each error as close to its source as possible. The possibilities provided by modern technology are reviewed in this light. An engineering design group dedicated to photometry is a prerequisite and an on-site photometric technician may be necessary. In this concept, observers are mainly remote users of a database. Implied is the idea of accurate photometry necessarily developing into a single but multi-site astronomical facility (cf. VLBI) and the communal discipline that goes with it.

Type
Session 3 New Techniques
Information
International Astronomical Union Colloquium , Volume 136: Stellar Photometry – Current Techniques and Future Developments , 1993 , pp. 130 - 146
Copyright
Copyright © C.J. Butler and I. Elliottt 1993

References

“Second Workshop”: Second Workshop on Improvements to Photometry, 1988, ed. Borucki, W.J., NASA Conference Publication 10015, NASA, Moffett Field, California Google Scholar
“My other paper”: Transformations and Modern Technology. This conference, session 5Google Scholar
Ai, Guoxiang and Hu, Yuefeng 1985, LEST Technical Report no 14 (Institute of Theoretical Astrophysics Oslo)Google Scholar
Andersen, T.E. et al. 1984, LEST Technical Report no 7 (Institute of Theoretical Astrophysics Oslo)Google Scholar
Barwig, H. et al. 1988, Second Workshop, p. 35 Google Scholar
Borucki, W.J. et al. 1988, Second Workshop, p. 47Google Scholar
Gilliland, R.L. and Brown, T.M. 1988, Pub. Astron. Soc. Pacific, vol 100, p. 754 CrossRefGoogle Scholar
Gilliland, R.L. et al. 1991, Astron. Jour., vol 101, p. 541 CrossRefGoogle Scholar
Heacox, W.D. 1988, Second Workshop, p. 289 Google Scholar
Jorden, P.R. 1992, Private communication (summarised by JT)Google Scholar
KenKnight, C.E. 1984, p. 222 in ‘Proc. Workshop on Improvements to Photometry’, eds Borucki, W.J. and Young, A., NASA Conference Publication 2350, NASA, Moffett Field, California Google Scholar
Lockwood, G.W. and Skiff, B.A. 1988, Second Workshop, p. 197 Google Scholar
Milone, E.F. and Robb, R.M. 1983, Pub. Astron. Soc. Pacific, vol 95, p. 666 CrossRefGoogle Scholar
Penny, A.J. and Griffiths, W.K. 1991, RGO Gemini Newsletter, no 33, p. 4 Google Scholar
Penny, A.J. et al. 1992, This conference, poster session 2Google Scholar
Ramsey, L.W. 1988, Second Workshop, p. 277 Google Scholar
Ramsey, L.W. 1992, to be published in Pub. Astron. Soc. PacificGoogle Scholar
Shao, M. et al. 1988, Astron. Astrophys., vol 193, p. 357 Google Scholar
Tinbergen, J. 1974, p. 175 in ‘Planets, Stars and Nebulae studied with Photopolarimetry’, ed. Gehreis, T., Univ. Ariz. Press, Tucson, Arizona Google Scholar
Walker, E.N. 1988, Second Workshop, p. 57 CrossRefGoogle Scholar
Walraven, Th. and Walraven, J.H. 1960, Bull. Astron. Inst. Neth., vol 15, p. 67 (no 496)Google Scholar
Wizinowich, P.L. 1989, Optical Engineering (SPIE), vol 28, p. 157 Google Scholar
Yarborough, J.M. and Amman, E.O. 1968, Jour. Opt. Soc. America, vol 58, p. 776 CrossRefGoogle Scholar
Young, A.T. 1992a, Improvements to Photometry V; Astron. Astrophys., vol 257, p. 366 Google Scholar
Young, A.T. 1992b, Improvements to Photometry VI; private communicationGoogle Scholar
Young, A.T. et al. 1991, Pub. Astron. Soc. Pacific, vol 103, p. 221 CrossRefGoogle Scholar