A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope

Laurent Jolissaint; Audrey Bouxin; Ulaş S. Gökay; Onur Keskin; François Rigaut; Cahit Yesilyaprak

doi:10.1117/12.2313655

A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope

Laurent Jolissaint^*, Audrey Bouxin, Ulaş S. Gökay, Onur Keskin, François Rigaut, Cahit Yesilyaprak

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Thanks to the availability of high actuator density deformable mirrors (ALPAO 468 DM), the high versatility of the pyramid wavefront sensor and above all, the venue of essentially no noise EMCCD detectors, it becomes possible to fully adapt the degree of correction of an adaptive optics system for a given guide star brightness and atmospheric condition. Indeed, when the conditions are very good, the high actuator density of the DM allows to reach a high Strehl by using all the modes, and when the conditions are less favorable, the spatial sampling, i. the number of modes, and the sensitivity of the detector allows to maximize the Strehl beyond what would be possible with a classical, frozen SH-WFS based system. Beside, oversampling the detector allows to relax the specification on the pupil images given by the pyramid on the detector, which in turn relaxes the pyramid prism manufacturing specifications. We are now designing an AO system for the DAG 4 m telescope that will allow, on the same system, ExAO as well as low order improved seeing observations. This article reports on the AO performance analysis, the final optical design and the design of the double prism achromatic pyramid-.

Original language	English
Title of host publication	Adaptive Optics Systems VI
Editors	Dirk Schmidt, Laura Schreiber, Laird M. Close
Publisher	SPIE
ISBN (Print)	9781510619593
DOIs	https://doi.org/10.1117/12.2313655
Publication status	Published - 2018
Event	Adaptive Optics Systems VI 2018 - Austin, United States Duration: 10 Jun 2018 → 15 Jun 2018

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10703
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Adaptive Optics Systems VI 2018
Country/Territory	United States
City	Austin
Period	10/06/18 → 15/06/18

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10.1117/12.2313655

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Jolissaint, L., Bouxin, A., Gökay, U. S., Keskin, O., Rigaut, F., & Yesilyaprak, C. (2018). A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope. In D. Schmidt, L. Schreiber, & L. M. Close (Eds.), Adaptive Optics Systems VI Article 1070366 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10703). SPIE. https://doi.org/10.1117/12.2313655

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title = "A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope",

abstract = "Thanks to the availability of high actuator density deformable mirrors (ALPAO 468 DM), the high versatility of the pyramid wavefront sensor and above all, the venue of essentially no noise EMCCD detectors, it becomes possible to fully adapt the degree of correction of an adaptive optics system for a given guide star brightness and atmospheric condition. Indeed, when the conditions are very good, the high actuator density of the DM allows to reach a high Strehl by using all the modes, and when the conditions are less favorable, the spatial sampling, i. the number of modes, and the sensitivity of the detector allows to maximize the Strehl beyond what would be possible with a classical, frozen SH-WFS based system. Beside, oversampling the detector allows to relax the specification on the pupil images given by the pyramid on the detector, which in turn relaxes the pyramid prism manufacturing specifications. We are now designing an AO system for the DAG 4 m telescope that will allow, on the same system, ExAO as well as low order improved seeing observations. This article reports on the AO performance analysis, the final optical design and the design of the double prism achromatic pyramid-.",

keywords = "Adaptive optics, flexible control, pyramid wavefront sensor",

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language = "English",

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Jolissaint, L, Bouxin, A, Gökay, US, Keskin, O, Rigaut, F & Yesilyaprak, C 2018, A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope. in D Schmidt, L Schreiber & LM Close (eds), Adaptive Optics Systems VI., 1070366, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10703, SPIE, Adaptive Optics Systems VI 2018, Austin, United States, 10/06/18. https://doi.org/10.1117/12.2313655

A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope. / Jolissaint, Laurent; Bouxin, Audrey; Gökay, Ulaş S. et al.
Adaptive Optics Systems VI. ed. / Dirk Schmidt; Laura Schreiber; Laird M. Close. SPIE, 2018. 1070366 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10703).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Rigaut, François

AU - Yesilyaprak, Cahit

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N2 - Thanks to the availability of high actuator density deformable mirrors (ALPAO 468 DM), the high versatility of the pyramid wavefront sensor and above all, the venue of essentially no noise EMCCD detectors, it becomes possible to fully adapt the degree of correction of an adaptive optics system for a given guide star brightness and atmospheric condition. Indeed, when the conditions are very good, the high actuator density of the DM allows to reach a high Strehl by using all the modes, and when the conditions are less favorable, the spatial sampling, i. the number of modes, and the sensitivity of the detector allows to maximize the Strehl beyond what would be possible with a classical, frozen SH-WFS based system. Beside, oversampling the detector allows to relax the specification on the pupil images given by the pyramid on the detector, which in turn relaxes the pyramid prism manufacturing specifications. We are now designing an AO system for the DAG 4 m telescope that will allow, on the same system, ExAO as well as low order improved seeing observations. This article reports on the AO performance analysis, the final optical design and the design of the double prism achromatic pyramid-.

AB - Thanks to the availability of high actuator density deformable mirrors (ALPAO 468 DM), the high versatility of the pyramid wavefront sensor and above all, the venue of essentially no noise EMCCD detectors, it becomes possible to fully adapt the degree of correction of an adaptive optics system for a given guide star brightness and atmospheric condition. Indeed, when the conditions are very good, the high actuator density of the DM allows to reach a high Strehl by using all the modes, and when the conditions are less favorable, the spatial sampling, i. the number of modes, and the sensitivity of the detector allows to maximize the Strehl beyond what would be possible with a classical, frozen SH-WFS based system. Beside, oversampling the detector allows to relax the specification on the pupil images given by the pyramid on the detector, which in turn relaxes the pyramid prism manufacturing specifications. We are now designing an AO system for the DAG 4 m telescope that will allow, on the same system, ExAO as well as low order improved seeing observations. This article reports on the AO performance analysis, the final optical design and the design of the double prism achromatic pyramid-.

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ER -

Jolissaint L, Bouxin A, Gökay US, Keskin O, Rigaut F, Yesilyaprak C. A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope. In Schmidt D, Schreiber L, Close LM, editors, Adaptive Optics Systems VI. SPIE. 2018. 1070366. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2313655

A flexible adaptive optics concept for general purpose high angular resolution science on the DAG 4m telescope

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