Hostname: page-component-77c89778f8-gq7q9 Total loading time: 0 Render date: 2024-07-23T05:53:04.962Z Has data issue: false hasContentIssue false
  • English
  • Français

A Two-Dimensional White-Light Amplitude Interferometer

Published online by Cambridge University Press:  02 August 2016

James B. Breckinridge
James B. Breckinridge*
Affiliation:
Jet Propulsion Laboratory (CALTECH), Pasadena, CA., 91103*

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.

A review of the applications of a point-symmetric, 180-degree, rotational shearing interferometer is given. Material includes, photographs of the Michelson stellar interferometer fringes from α Lyr, measures of amplitude of phase excursions in the atmosphere, and a measure of the order of interference in speckle patterns. New material includes unpublished double star speckle patterns to illustrate the isoplanatic patch, a measure of the time fluctuations of the earths' atmosphere, and measurements of the properties of a 256 channel linear reticon.

Type
The Scientific Programme
Information
International Astronomical Union Colloquium , Volume 50: High Angular Resolution Stellar Interferometry , January 1979 , pp. 31-1 - 31-13
Copyright
Copyright © 1979

References

1) Breckinridge, James B., “Coherence Interferometer and Astronomical Applications,” Applied Optics, 11, 29962998, 1972.Google Scholar
2) Breckinridge, James B., “Two-Dimensional White Light Coherence Interferometer,” Applied Optics, 13, 27602762, 1974.Google Scholar
3) Breckinridge, James B., “The Spatial Structure Analyzer and Its Astronomical Applications,” PhD, Optical Sciences Dissertation, University of Arizona, 1976.Google Scholar
4) Burke, James J and Breckinridge, James B., “Passive Imaging Through the Turbulent Atmosphere: Fundamental Limits on the Spatial Frequency Resolution of a Rotational Shearing Interferometer,” J. Opt. Soc. Amer., 68, 6777, 1978.Google Scholar
5) Roddier, C., “Measurements of the Atmospheric Attenuation of the Spectral Components of Astronomical Images,” J. Opt. Soc. Amer., 6l5, 478482.Google Scholar
6) Breckinridge, J.B., “Measurement of the Amplitude of Phase Excursions in the Earth's Atmosphere,” J. Opt. Soc. Amer., 66, 143144.Google Scholar
7) Breckinridge, J.B., “Interference in Astronomical Speckle Patterns,J. Opt Soc. Amer., 66, 12401242, 1976.Google Scholar
8) Breckinridge, J.B., McAlister, H.A. and Robinson, W.G., “The Kitt Peak Speckle Camera,” submitted to Applied Optics.Google Scholar
9) Cutter, D.W. and Lohmann, A.W., “Achromatic Stellar Interferometry,” Optics Communications, 12, 220222, 1974.CrossRefGoogle Scholar
10) Wlock, G.R., Optics Communications, 18, 307, 1976.Google Scholar
11) Livingston, W.C., Harvey, J., Slaughter, C., and Trumbo, D., Applied Optics, 15, 4051, 1976.Google Scholar
12) Greenaway, A.H., “Proposal for Phase Recovery from a Single Intensity Distribution,” Optics Letters, 1, 1012, 1977.Google Scholar
13) Fienup, J.R., “Reconstruction of an Object From the Modulus of its Fourier Transform,” Optics Letters, 3, 2730, 1978.Google Scholar