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Estimation of the lateral mis-registrations of the GRAVITY + adaptive optics system: perturbative method with open-loop modal correlation and non-perturbative method with temporal correlation of closed-loop telemetry

Estimation of the lateral mis-registrations of the GRAVITY + adaptive optics system: perturbative method with open-loop modal correlation and non-perturbative method with temporal correlation of closed-loop telemetry
Estimation of the lateral mis-registrations of the GRAVITY + adaptive optics system: perturbative method with open-loop modal correlation and non-perturbative method with temporal correlation of closed-loop telemetry
Context: the GRAVITY+ upgrade implies a complete renewal of its adaptive optics (AO) systems. Its complex design, featuring moving components between the deformable mirrors and the wavefront sensors, requires the monitoring and auto-calibrating of the lateral mis-registrations of the system while in operation.

Aims: for preset and target acquisition, large lateral registration errors must be assessed in open loop to bring the system to a state where the AO loop closes. In closed loop, these errors must be monitored and corrected, without impacting the science.

Methods: with respect to the first requirement, our method is perturbative, with two-dimensional modes intentionally applied to the system and correlated to a reference interaction matrix. For the second requirement, we applied a non-perturbative approach that searches for specific patterns in temporal correlations in the closed loop telemetry. This signal is produced by the noise propagation through the AO loop.

Results: our methods were validated through simulations and on the GRAVITY+ development bench. The first method robustly estimates the lateral mis-registrations, in a single fit and with a sub-subaperture resolution while in an open loop. The second method is not absolute, but it does successfully bring the system towards a negligible mis-registration error, with a limited turbulence bias. Both methods proved to robustly work on a system still under development and not fully characterised.

Conclusions: tested with Shack-Hartmann wavefront sensors, the proposed methods are versatile and easily adaptable to other AO instruments, such as the pyramid, which stands as a baseline for all future AO systems. The non-perturbative method, not relying on an interaction matrix model and being sparse in the Fourier domain, is particularly suitable to the next generation of AO systems for extremely large telescopes that will present an unprecedented level of complexity and numbers of actuators.
eess.SP, astro-ph.IM, Instrumentation: adaptive optics, Techniques: miscellaneous, Methods: data analysis, Methods: numerical
0004-6361
Berdeu, A.
2b151c3d-2196-4a67-bcf5-5aeac92d12ff
Bonnet, H.
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Bouquin, J.-B. Le
8dd5aab3-47ee-4d26-8b7a-f0e4b9dcc06c
Édouard, C.
cf92ed4f-e356-46db-b550-218b903c07aa
Gomes, T.
ba920321-1182-46da-b576-920f6fc9c22d
Shchekaturov, P.
dfd8f465-8a20-47c1-bac6-29bf4c0ba965
Dembet, R.
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Paumard, T.
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Oberti, S.
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Kolb, J.
4eea7b2a-78c6-4261-a26a-3750bfd73525
Millour, F.
25e263b3-19b1-4e73-8a48-9f81f6fd0f1e
Berio, P.
bf52ea27-c924-4fa3-ad35-6e261deef1d7
Lai, O.
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Eisenhauer, F.
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Garcia, P.
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Straubmeier, C.
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Kreidberg, L.
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Hönig, S.F.
be0bb8bc-bdac-4442-8edc-f735834f3917
Defrère, D.
3975a76e-1397-4eab-b69c-cdfe30d45a64
Berdeu, A.
2b151c3d-2196-4a67-bcf5-5aeac92d12ff
Bonnet, H.
2fd2585e-8647-4643-a607-6786d4456b87
Bouquin, J.-B. Le
8dd5aab3-47ee-4d26-8b7a-f0e4b9dcc06c
Édouard, C.
cf92ed4f-e356-46db-b550-218b903c07aa
Gomes, T.
ba920321-1182-46da-b576-920f6fc9c22d
Shchekaturov, P.
dfd8f465-8a20-47c1-bac6-29bf4c0ba965
Dembet, R.
7edb732d-8b17-48eb-8332-b3a7c5b9ce57
Paumard, T.
ce1870fb-a5ab-459f-ad8e-c957fc0863f4
Oberti, S.
666b91b3-63c4-4efc-a862-6bf28a55ee1b
Kolb, J.
4eea7b2a-78c6-4261-a26a-3750bfd73525
Millour, F.
25e263b3-19b1-4e73-8a48-9f81f6fd0f1e
Berio, P.
bf52ea27-c924-4fa3-ad35-6e261deef1d7
Lai, O.
24a7b944-5652-45c2-867f-0bbcd5b8b830
Eisenhauer, F.
0fecafcc-e730-4d1b-b958-7de813a1bce3
Garcia, P.
28bc7072-b3fc-46d2-8c64-a68b4fd6b2a3
Straubmeier, C.
5589f023-0317-4e8e-8652-9cfac5cd61ed
Kreidberg, L.
05f47afb-ae85-42a4-ae2f-e2580e42ed4c
Hönig, S.F.
be0bb8bc-bdac-4442-8edc-f735834f3917
Defrère, D.
3975a76e-1397-4eab-b69c-cdfe30d45a64

Berdeu, A., Bonnet, H., Bouquin, J.-B. Le, Édouard, C., Gomes, T., Shchekaturov, P., Dembet, R., Paumard, T., Oberti, S., Kolb, J., Millour, F., Berio, P., Lai, O., Eisenhauer, F., Garcia, P., Straubmeier, C., Kreidberg, L., Hönig, S.F. and Defrère, D. (2024) Estimation of the lateral mis-registrations of the GRAVITY + adaptive optics system: perturbative method with open-loop modal correlation and non-perturbative method with temporal correlation of closed-loop telemetry. Astronomy & Astrophysics, 687, [A157]. (doi:10.1051/0004-6361/202449311).

Record type: Article

Abstract

Context: the GRAVITY+ upgrade implies a complete renewal of its adaptive optics (AO) systems. Its complex design, featuring moving components between the deformable mirrors and the wavefront sensors, requires the monitoring and auto-calibrating of the lateral mis-registrations of the system while in operation.

Aims: for preset and target acquisition, large lateral registration errors must be assessed in open loop to bring the system to a state where the AO loop closes. In closed loop, these errors must be monitored and corrected, without impacting the science.

Methods: with respect to the first requirement, our method is perturbative, with two-dimensional modes intentionally applied to the system and correlated to a reference interaction matrix. For the second requirement, we applied a non-perturbative approach that searches for specific patterns in temporal correlations in the closed loop telemetry. This signal is produced by the noise propagation through the AO loop.

Results: our methods were validated through simulations and on the GRAVITY+ development bench. The first method robustly estimates the lateral mis-registrations, in a single fit and with a sub-subaperture resolution while in an open loop. The second method is not absolute, but it does successfully bring the system towards a negligible mis-registration error, with a limited turbulence bias. Both methods proved to robustly work on a system still under development and not fully characterised.

Conclusions: tested with Shack-Hartmann wavefront sensors, the proposed methods are versatile and easily adaptable to other AO instruments, such as the pyramid, which stands as a baseline for all future AO systems. The non-perturbative method, not relying on an interaction matrix model and being sparse in the Fourier domain, is particularly suitable to the next generation of AO systems for extremely large telescopes that will present an unprecedented level of complexity and numbers of actuators.

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More information

Accepted/In Press date: 23 April 2024
e-pub ahead of print date: 8 July 2024
Keywords: eess.SP, astro-ph.IM, Instrumentation: adaptive optics, Techniques: miscellaneous, Methods: data analysis, Methods: numerical
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Identifiers

Local EPrints ID: 496217
URI: http://eprints.soton.ac.uk/id/eprint/496217
DOI: doi:10.1051/0004-6361/202449311
ISSN: 0004-6361
PURE UUID: 0c36a449-29fe-498f-80b4-52dfdc47082a

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Date deposited: 09 Dec 2024 17:33
Last modified: 09 Dec 2024 17:34

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Contributors

Author: A. Berdeu
Author: H. Bonnet
Author: J.-B. Le Bouquin
Author: C. Édouard
Author: T. Gomes
Author: P. Shchekaturov
Author: R. Dembet
Author: T. Paumard
Author: S. Oberti
Author: J. Kolb
Author: F. Millour
Author: P. Berio
Author: O. Lai
Author: F. Eisenhauer
Author: P. Garcia
Author: C. Straubmeier
Author: L. Kreidberg
Author: S.F. Hönig
Author: D. Defrère

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