Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-09T12:49:43.276Z Has data issue: false hasContentIssue false
  • English
  • Français

Integrated Optics in Astronomical Interferometry

Published online by Cambridge University Press:  19 July 2016

V. Coudé du Foresto
V. Coudé du Foresto*
Affiliation:
Observatoire de Paris, DESPA (CNRS URA 264), 92195 Meudon Cedex, France

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.

Integrated optical components (mostly single-mode fibers and couplers) can be used to achieve several functions that are needed in interferometry: coherent beam transportation and recombination, pathlength modulation and control for fringe tracking and double Fourier interferometry, spatial filtering of the wavefront and interferogram calibration. Their potential is assessed and the main problems encountered in their implementation are discussed: dispersion, polarization behavior, and especially starlight injection.

Keywords

Stellar interferometryIntegrated opticsSingle-mode fibers and couplers
Type
Impact of Technology II: Optical and Infrared
Information
Symposium - International Astronomical Union , Volume 158: Very High Angular Resolution Imaging , 1994 , pp. 261 - 271
Copyright
Copyright © Kluwer 1994 

References

Barrell, K. F. and Pask, C: 1979, ‘Optical fibre excitation by lenses’, Optica Acta 26, 91108 Google Scholar
Burnett, J. G., Greenaway, A. H., Spowart, J., McBride, R. and Jones, J. D. C.: 1991, ‘Balancing Optical Pathlengths in Fibre Interferometers’, in High-resolution imaging by interferometry II, eds. Beckers, J. and Merkle, F. (ESO, Garching, Germany), 12871293 Google Scholar
Burnett, J. G. and Jones, J. D. C.: 1992, ‘Cutting optical fibers to equal lengths for optical broadband stellar interferometry’, Appl. Opt. 31, 29772978 Google Scholar
Burnett, J. G., Greenaway, A. H., Spowart, J., McBride, R. and Jones, J. D. C.: 1991, ‘Balancing Optical Pathlengths in Fibre Interferometers’, in High-resolution imaging by interferometry II, eds. Beckers, J. and Merkle, F. (ESO, Garching, Germany), 12871293 Google Scholar
Connes, P., Froehly, C. and Facq, P.: 1984, ‘A Fiber-Linked Version of Project TRIO’, in ESA Colloq. on Kilometric Optical Arrays in Space, eds. Longdon, N. and Melita, O. (Cargèse, Corsica), 4961 Google Scholar
Connes, P., Roddier, F., Shaklan, S. and Ribak, E.: 1987, ‘Fiber-linked telescope arrays on the ground and in space’ in ESA Workshop on Optical Interferometry in Space, ed. Volonté, S. (Granada, Spain), 7383 Google Scholar
Connes, P. and Reynaud, F.: 1988, ‘Fiber tests on a radiotelescope’, in High-resolution imaging by interferometry, ed. Merkle, F. (ESO, Garching, Germany), 11171129 Google Scholar
Coudé du Foresto, V. and Mazé, G.: 1990, ‘Using single-mode infrared fibers for interferometry: progress report’, in SPIE Proc. 1237, 538547 Google Scholar
Coudé du Foresto, V. and Ridgway, S.: 1991, ‘FLUOR: a stellar interferometer using single-mode infrared fibers’, in High-resolution imaging by interferometry II, eds. Beckers, J. and Merkle, F. (ESO, Garching, Germany), 731740 Google Scholar
Coudé du Foresto, V., Ridgway, S. and Mariotti, J.-M.: 1992, in ‘Integrated optics for an interferometric link’, ESA Colloquium on Targets for Space-Based Interferometry, ed. Volonté, S. (Beaulieu, France), 219224 Google Scholar
Forman, P. R. and Jahoda, F. C.: 1988, ‘Linear birefringence effects on fiber-optic current sensors’, Appl. Opt. 27, 30883096 Google Scholar
Froehly, C.: 1981, ‘Coherence and interferometry through optical fibers’, in Scientific Importance of High Angular Resolution at Infrared and Optical Wavelengths, eds. Ulrich, M. H. and Kjr, K. (ESO, Garching, Germany), 285293 Google Scholar
Gloge, D.: 1971, ‘Weakly Guiding Fibers’, Appl. Opt. 10, 22522258 Google Scholar
Harmon, R. A.: 1982, ‘Polarisation stability in long lengths of monomode fibre’, Electron. Lett. 18, 10581060 Google Scholar
Jinguji, K., Horiguchi, M., Shibata, S., Kanamori, T., Mitachi, S. and Manabe, T.: 1982, ‘Material dispersion in fluoride glasses’, Electron. Lett. 18, 164165 Google Scholar
Léna, P., Ridgway, S. T. and Mariotti, J. M.: 1988, ‘Interferometric beam recombination at infrared wavelengths’, in High-resolution imaging by interferometry, ed. Merkle, F. (ESO, Garching, Germany), 10391055 Google Scholar
Mariotti, J.-M. and Ridgway, S. T.: 1988, ‘Double Fourier spatio-spectral interferometry: combining high spectral and high spatial resolution in the near infrared’, Astron. Astrophys. 195, 350363 Google Scholar
Monerie, M., Alard, F. and Mazé, G.: 1985, ‘Fabrication and Characterisation of Fluoride-glass single-mode fibers’, Electron. Lett. 21, 11791181 Google Scholar
Neumann, E.-G.: 1988, Single-Mode Fibers, Springer-Verlag, Berlin Google Scholar
Noda, J., Okamoto, K. and Sasaki, Y.: 1986, ‘Polarization-Maintaining Fibers and Their Applications’, Journal of Lightwave Technology LT-4, 10711089 Google Scholar
Payne, D., Barlow, A. and Hansen, J.: 1982, ‘Developement of Low- and High-Birefringence Optical Fibers’, IEEE J. Quant. Elec. QE-18, 477487 CrossRefGoogle Scholar
Ramaswamy, V., Standley, R. D., Sze, D. and French, W. G.: 1978, ‘Polarization Effects in Short Length, Single Mode Fibers’, The Bell System Technical Journal 57, 635651 CrossRefGoogle Scholar
Reynaud, F., Alleman, J. J. and Connes, P.: 1992, ‘Interferometric control of fiber lengths for a coherent telescope array’, App. Opt. 31, 37363743 Google Scholar
Rohloff, R.-R. and Leinert, C.: 1991, ‘A fiber optics x-coupler as phase tracker in an astronomical interferometer - concept and first laboratory measurements’, in High-resolution imaging by interferometry II, eds. Beckers, J. and Merkle, F. (ESO, Garching, Germany), 13031312 Google Scholar
Ross, J. N.: 1984, ‘The rotation of the polarization in low birefringence monomode optical fibres due to geometric effects’, Optical and Quantum Electronics 16, 455461 Google Scholar
Shaklan, S. B. and Roddier, F.: 1987, ‘Single-mode fiber optics in a long-baseline interferometer’, Appl. Opt. 26, 21592163 CrossRefGoogle Scholar
Shaklan, S. and Roddier, F.: 1988, ‘Coupling starlight into single-mode fiber optics’, Appl. Opt. 27, 23342338 CrossRefGoogle ScholarPubMed
Shaklan, S. B.: 1989, Multiple Beam Correlation Using Single-Mode Fiber Optics with Application to Interferometric Imaging, , The University of Arizona, Tucson Google Scholar
Shaklan, S., Reynaud, F. and Froehly, C.: 1990, ‘Multimode Fiber Optics Broad Spectral Band Interferometer’, in SPIE Proc. 1319, 448449 Google Scholar
Shaklan, S., Colavita, M. and Shao, M.: 1991, ‘Visibility Calibration Using Single-Mode Fibers in a Long-Baseline interferometer’, in High-resolution imaging by interferometry II, eds. Beckers, J. and Merkle, F. (ESO, Garching, Germany)Google Scholar
Sheen, S. K. and Giallorenzi, T. G.: 1979, ‘Single-mode fiber multiterminal star directional coupler’, Appl. Phys. Lett. 35, 131133 Google Scholar
Sheen, S. K.: 1980, ‘Fiber-optic gyroscope with 3 × 3 directional coupler’, Appl. Phys. Lett. 37, 869871 CrossRefGoogle Scholar
Tekippe, V. J. and Willson, W. R.: 1985, ‘Single-mode directionnal couplers’, Laser Focus 21, 132144 Google Scholar
Ulrich, R., Rashleigh, S. C. and Eickhoff, W.: 1980, ‘Bending induced birefringence in single-mode fibers’, Opt. Lett. 5, 273275 Google Scholar
Wang, C. C., Burns, W. K. and Villaruel, C. A.: 1985, ‘9 × 9 single-mode fiber-optic star couplers’, Opt. Lett. 10, 4951 Google Scholar
Wysocki, J. A.: 1987, ‘Mechanical properties of IR glasses and fibers’, in SPIE Proc. 843, 2133 Google Scholar
Zhao, P., Mariotti, J.-M., Léna, P. and Coudé du Foresto, V.: 1992, ‘IR single-mode fiber optics for double Fourier interferometry’, in ESA Colloquium on Targets for Space-Based Interferometry, ed. Volonté, S. (Beaulieu, France), 225230 Google Scholar