First stellar photons for an integrated optics discrete beam combiner at the William Herschel Telescope

We present the first on-sky results of a four-telescope integrated optics discrete beam combiner (DBC) tested at the 4.2 m William Herschel Telescope. The device consists of a four-input pupil remapper followed by a DBC and a 23-output reformatter. The whole device was written monolithically in a si...

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Veröffentlicht in:	Applied optics (2004) 2021-07, Vol.60 (19), p.D129-D142
Hauptverfasser:	Nayak, Abani Shankar, Labadie, Lucas, Sharma, Tarun Kumar, Piacentini, Simone, Corrielli, Giacomo, Osellame, Roberto, Gendron, Éric, Buey, Jean-Tristan M, Chemla, Fanny, Cohen, Mathieu, Bharmal, Nazim A, Bardou, Lisa F, Staykov, Lazar, Osborn, James, Morris, Timothy J, Pedretti, Ettore, Dinkelaker, Aline N, Madhav, Kalaga V, Roth, Martin M
Format:	Artikel
Sprache:	eng
Schlagworte:	Beam combiners Celestial bodies Deformable mirrors Dispersion Formability Herschel, William (1738-1822) Integrated optics Microlenses Photons Signal to noise ratio Space telescopes Substrates Telescopes Transfer matrices Ultrafast lasers Visibility
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container_title	Applied optics (2004)
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creator	Nayak, Abani Shankar Labadie, Lucas Sharma, Tarun Kumar Piacentini, Simone Corrielli, Giacomo Osellame, Roberto Gendron, Éric Buey, Jean-Tristan M Chemla, Fanny Cohen, Mathieu Bharmal, Nazim A Bardou, Lisa F Staykov, Lazar Osborn, James Morris, Timothy J Pedretti, Ettore Dinkelaker, Aline N Madhav, Kalaga V Roth, Martin M
description	We present the first on-sky results of a four-telescope integrated optics discrete beam combiner (DBC) tested at the 4.2 m William Herschel Telescope. The device consists of a four-input pupil remapper followed by a DBC and a 23-output reformatter. The whole device was written monolithically in a single alumino-borosilicate substrate using ultrafast laser inscription. The device was operated at astronomical H-band (1.6 µm), and a deformable mirror along with a microlens array was used to inject stellar photons into the device. We report the measured visibility amplitudes and closure phases obtained on Vega and Altair that are retrieved using the calibrated transfer matrix of the device. While the coherence function can be reconstructed, the on-sky results show significant dispersion from the expected values. Based on the analysis of comparable simulations, we find that such dispersion is largely caused by the limited signal-to-noise ratio of our observations. This constitutes a first step toward an improved validation of the DBC as a possible beam combination scheme for long-baseline interferometry.
doi_str_mv	10.1364/AO.423881
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subjects	Beam combiners Celestial bodies Deformable mirrors Dispersion Formability Herschel, William (1738-1822) Integrated optics Microlenses Photons Signal to noise ratio Space telescopes Substrates Telescopes Transfer matrices Ultrafast lasers Visibility
title	First stellar photons for an integrated optics discrete beam combiner at the William Herschel Telescope
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