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Five Years of Double Star Interferometry and its Lessons

Published online by Cambridge University Press:  12 April 2016

Harold A. McAlister
Harold A. McAlister*
Affiliation:
Department of Physics and Astronomy, Georgia State University

Extract

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With nearly 1500 diffraction limited measurements of high accuracy to its credit, speckle interferometry must now be considered an established and productive method for performing binary star astrometry. This paper will attempt to give an explanation of the technique from the perspective of a binary star observer along with a general summary of the accomplishments that have given speckle interferometry its present respectability. Some recommendations aimed at increasing the effectiveness of the method will also be made. Speckle interferometry has provided valuable information on stellar diameters, and tantalizing results are beginning to appear for a variety of faint objects, but only the application to the measurement of binary stars will be considered here.

Type
Research Article
Information
International Astronomical Union Colloquium , Volume 62: Current Techniques in Double and Multiple Star Research , May 1983 , pp. 125 - 143
Copyright
Copyright © Lowell Observatory 1983

References

1. Labeyrie, A. 1970. Astr. Ap. 6, 85.Google Scholar
2. Dainty, J.C. 1975. Topics in Applied Physios, Vol. 9. ed. Dainty, J.C. (Springer-Verlag: New York), p. 255.Google Scholar
3. Worden, S.P. 1977. Vistas in Astr. 20, 301.CrossRefGoogle Scholar
4. Labeyrie, A. 1978. Ann. Rev. Astv. Ap. 16, 77.CrossRefGoogle Scholar
5. McAlister, H.A. 1978. Modern Astrometry (IAU Colloquium No. 48). ed. Prochazka, F.V. and Tucker, R.H. (University Observatory: Vienna), p. 325.Google Scholar
6. Jenkins, F.A., and White, H.E. 1957. Fundamentals of Optics (McGraw-Hill: New York), p. 234 Google Scholar
7. Breckinridge, J.B., McAlister, H.A., and Robinson, W.G. 1979. Appl. Opt. 18, 1034.CrossRefGoogle Scholar
8. Hubbard, G., Hege, K., Reed, M.A., Strittmatter, P.A., and Woolf, N.J. 1979. Astr. J. 84, 1437.CrossRefGoogle Scholar
9. Blazit, A., Bonneau, D., Koechlin, L., and Labeyrie, A. 1977. Ap. J. 214, L79.CrossRefGoogle Scholar
10. Bonneau, D., Blazit, A., Foy, R., and Labeyrie, A. 1980. Astr. Ap. Supp. 42, 185.Google Scholar
11. Weigelt, G.P. 1979. Opt. Acta, 26, 1351.Google Scholar
12. Morgan, B.L., Beckmann, G.K., and Scaddan, R.J. 1980. Mon. Not. E. Astr. Soc 192, 143.CrossRefGoogle Scholar
13. McAlister, H.A., and Fekel, F.C. 1980. Ap. J. Supp. 43, 327.CrossRefGoogle Scholar
14. McAlister, H.A. 1978. Ap. J. 223, 526.CrossRefGoogle Scholar
15. McAlister, H.A. 1981. Astr. J. (in press).Google Scholar
16. Bonneau, D. 1979. Astr. Ap. 80, Lll.Google Scholar
17. McAlister, H.A. 1977. Ap. J. 212, 459.CrossRefGoogle Scholar
18. McAlister, H.A. 1981. Astr. J. 86, 795.CrossRefGoogle Scholar
19. McAlister, H.A. 1976. Pub. Astr. Soc. Pac. 88, 957.CrossRefGoogle Scholar
20. McAlister, H.A. 1980. Astr. J. 85, 1265.CrossRefGoogle Scholar
21. McAlister, H.A. 1980. Ap. J. 236, 522.CrossRefGoogle Scholar
22. Dainty, J.C. 1978. Mon. Not. R. Astr. Soc. 183, 223.CrossRefGoogle Scholar
23. Finsen, W.S. 1975. IAU Comm. 26 Ciro. d’Inf. No. 66.Google Scholar
24. Bonneau, D., and Foy, R. 1980. Astr. Ap. 86, 295.Google Scholar
25. Anderson, J.A. 1920. Ap. J. 51, 263.CrossRefGoogle Scholar
26. Finsen, W.S. 1971. Ap. Space Sci. 11, 13.CrossRefGoogle Scholar