Your search keyword '"Madec, P. -Y."' showing total 14 results

1. SPRINT: System Parameters Recurrent INvasive Tracking, a fast and least-cost online calibration strategy for adaptive optics

Author

Heritier, C. T., Fusco, T., Oberti, S., Neichel, B., Esposito, S., and Madec, P. -Y.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The future large adaptive telescopes will trigger new constraints for the calibration of Adaptive Optics (AO) systems equipped with pre-focal Deformable Mirrors (DM). The image of the DM actuators grid as seen by the Wave-Front Sensor (WFS) may evolve during the operations due to the flexures of the opto-mechanical components present in the optical path. The latter will result in degraded AO performance that will impact the scientific operation. To overcome this challenge, it will be necessary to regularly monitor and compensate for these DM/WFS mis-registrations either by physically re-aligning some optical components or by updating the control matrix of the system. In this paper, we present a new strategy to track mis-registrations using a pseudo-synthetic model of the AO system. The method is based on an invasive approach where signals are acquired on-sky, before or during the scientific operations, and fed to the model to extract the mis-registration parameters. We introduce a method to compute the most sensitive modes to these mis-registrations that allows to reduce the number of degrees of freedom required by the algorithm and minimize the impact on the scientific performance. We demonstrate that, using only a few of these well selected signals, the method provides a very good accuracy on the parameters estimation, well under the targeted accuracy, and has a negligible impact on the scientific path. In addition, the method appears to be very robust to varying operating conditions of noise and atmospheric turbulence and performs equally for both Pyramid and Shack-Hartmann WFS.

Published

2021

2. Raman-scattered laser guide star photons to monitor the scatter of astronomical telescope mirrors

Author

Vogt, F. P. A., Álvarez, J. L., Calia, D. Bonaccini, Hackenberg, W., Bourget, P., Aranda, I., Bellhouse, C., Blanchard, I., Cerda, S., Cid, C., Comin, M., Contreras, M. Espinoza, Hau, G., Hibon, P., Holzlöhner, R., Jaffé, Y. L., Kolb, J., Kuntschner, H., Madec, P. -Y., Mieske, S., Milli, J., Opitom, C., Parraguez, D., Romero, C., Selman, F., Schmidtobreick, L., Smoker, J., Urrutia, S. Vera, and Zins, G.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The first observations of laser guide star photons Raman-scattered by air molecules above the Very Large Telescope (VLT) were reported in June 2017. The initial detection came from the Multi-Unit Spectroscopic Explorer (MUSE) optical integral field spectrograph, following the installation of the 4 Laser Guide Star Facility (4LGSF) on the Unit Telescope 4 (UT4) of the VLT. In this Letter, we delve further into the symbiotic relationship between the 4LGSF laser guide star system, the UT4 telescope, and MUSE by monitoring the spectral contamination of MUSE observations by Raman photons over a 27 month period. This dataset reveals that dust particles deposited on the primary and tertiary mirrors of UT4 -- responsible for a reflectivity loss of ~8% at 6000{\AA} -- contribute (60$\pm5)% to the laser line fluxes detected by MUSE. The flux of Raman lines, contaminating scientific observations acquired with optical spectrographs, thus provides a new, non-invasive means to monitor the evolving scatter properties of the mirrors of astronomical telescopes equipped with laser guide star systems., Comment: 5 pages, 3 figures, 1 table, accepted for publication in A&A Letters

Published

2018

3. A new calibration strategy for adaptive telescopes with pyramid WFS

Author

Heritier, C. T., Esposito, S., Fusco, T., Neichel, B., Oberti, S., Briguglio, R., Agapito, G., Puglisi, A., Pinna, E., and Madec, P. -Y.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Several telescopes include large Deformable Mirrors (DM) located directly inside the telescope. These adaptive telescopes trigger new constraints for the calibration of the Adaptive Optics (AO) systems as they usually offer no access to an artificial calibration source for the interaction matrix measurement. Moreover, the optical propagation between the DM and the Wave-Front Sensor (WFS) may evolve during the operation, resulting in mis-registrations that highly affect the AO performance and thus the scientific observation. They have to be measured and compensated, for instance by updating the calibration. A new strategy consists of estimating the mis-registrations and injecting them into synthetic models to generate noise-free interaction matrices. This pseudo-synthetic approach is the baseline for the Adaptive Optics Facility working with a Shack-Hartmann WFS and seems particularly suited for the future Extremely Large Telescope as the calibration will have to be regularly updated, for a large numbers of actuators. In this paper, the feasibility of a pseudo synthetic calibration with Pyramid WFS at the Large Binocular Telescope (LBT) is investigated. A synthetic model of the LBT AO systems is developed, and the procedure to adjust the mis-registrations parameters is introduced, extracting them from an experimental interaction matrix. We successfully tested an interaction matrix generated from the model on the real system in high-order AO mode. We recorded a slightly better performance with respect to the experimental one. This work demonstrates that a high accuracy calibration can be obtained using the pseudo synthetic approach with pyramid WFS.

Published

2018

4. Harmonisation of in-silico next-generation sequencing based methods for diagnostics and surveillance

Author

Nunez-Garcia, J., AbuOun, M., Storey, N., Brouwer, M. S., Delgado-Blas, J. F., Mo, S. S., Ellaby, N., Veldman, K. T., Haenni, M., Châtre, P., Madec, J. Y., Hammerl, J. A., Serna, C., Getino, M., La Ragione, R., Naas, T., Telke, A. A., Glaser, P., Sunde, M., Gonzalez-Zorn, B., Ellington, M. J., and Anjum, M. F.

Published

2022

5. Detection and Implications of Laser-Induced Raman Scattering at Astronomical Observatories

Author

Vogt, F. P. A., Calia, D. Bonaccini, Hackenberg, W., Opitom, C., Comin, M., Schmidtobreik, L., Smoker, J., Blanchard, I., Contreras, M. Espinoza, Aranda, I., Milli, J., Jaffe, Y. L., Selman, F., Kolb, J., Hibon, P., Kuntschner, H., and Madec, P. -Y.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Atmospheric and Oceanic Physics

Abstract

(Abr.) Laser guide stars employed at astronomical observatories provide artificial wavefront reference sources to help correct (in part) the impact of atmospheric turbulence on astrophysical observations. Following the recent commissioning of the 4 Laser Guide Star Facility (4LGSF) on UT4 at the VLT, we characterize the spectral signature of the uplink beams from the 22W lasers to assess the impact of laser scattering from the 4LGSF on science observations. We use the MUSE optical integral field spectrograph to acquire spectra at a resolution of R~3000 of the uplink laser beams over the wavelength range of 4750\AA\ to 9350\AA. We report the first detection of laser-induced Raman scattering by N2, O2, CO2, H2O and (tentatively) CH4 molecules in the atmosphere above the astronomical observatory of Cerro Paranal. In particular, our observations reveal the characteristic spectral signature of laser photons -- but 480\AA\ to 2210\AA\ redder than the original laser wavelength of 5889.959\AA\ -- landing on the 8.2m primary mirror of UT4 after being Raman-scattered on their way up to the sodium layer. Laser-induced Raman scattering is not unique to the observatory of Cerro Paranal, but common to any astronomical telescope employing a laser-guide-star (LGS) system. It is thus essential for any optical spectrograph coupled to a LGS system to handle thoroughly the possibility of a Raman spectral contamination via a proper baffling of the instrument and suitable calibrations procedures. These considerations are particularly applicable for the HARMONI optical spectrograph on the upcoming Extremely Large Telescope. At sites hosting multiple telescopes, laser collision prediction tools also ought to account for the presence of Raman emission from the uplink laser beam(s) to avoid the unintentional contamination of observations acquired with telescopes in the vicinity of a LGS system., Comment: 17 pages, 11 figures, published in Physical Review X. v2: Fixed typo in Eq. 9 and y-labels in Fig. 6

Published

2017

6. Validation Through Simulations of a Cn2 Profiler for the ESO/VLT Adaptive Optics Facility

Author

Garcia-Rissmann, A., Guesalaga, A., Kolb, J., Louarn, M. Le, Madec, P. -Y., and Neichel, B.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Adaptive Optics Facility (AOF) project envisages transforming one of the VLT units into an adaptive telescope and providing its ESO (European Southern Observatory) second generation instruments with turbulence corrected wavefronts. For MUSE and HAWK-I this correction will be achieved through the GALACSI and GRAAL AO modules working in conjunction with a 1170 actuators Deformable Secondary Mirror (DSM) and the new Laser Guide Star Facility (4LGSF). Multiple wavefront sensors will enable GLAO and LTAO capabilities, whose performance can greatly benefit from a knowledge about the stratification of the turbulence in the atmosphere. This work, totally based on end-to-end simulations, describes the validation tests conducted on a Cn2 profiler adapted for the AOF specifications. Because an absolute profile calibration is strongly dependent on a reliable knowledge of turbulence parameters r0 and L0, the tests presented here refer only to normalized output profiles. Uncertainties in the input parameters inherent to the code are tested as well as the profiler response to different turbulence distributions. It adopts a correction for the unseen turbulence, critical for the GRAAL mode, and highlights the effects of masking out parts of the corrected wavefront on the results. Simulations of data with typical turbulence profiles from Paranal were input to the profiler, showing that it is possible to identify reliably the input features for all the AOF modes., Comment: 15 pages, 12 figures, accepted for publication in the MNRAS Accepted 2015 January 22. Received 2015 January 21; in original form 2014 December 4

Published

2015

7. SPRINT, system parameters recurrent invasive tracking: a fast and least-cost online calibration strategy for adaptive optics

Author

Heritier, C T, primary, Fusco, T, additional, Oberti, S, additional, Neichel, B, additional, Esposito, S, additional, and Madec, P-Y, additional

Published

2021

8. Reconstruction of the ground-layer adaptive-optics point spread function for MUSE wide field mode observations

Author

Fusco, T., primary, Bacon, R., additional, Kamann, S., additional, Conseil, S., additional, Neichel, B., additional, Correia, C., additional, Beltramo-Martin, O., additional, Vernet, J., additional, Kolb, J., additional, and Madec, P.-Y., additional

Published

2020

9. A new calibration strategy for adaptive telescopes with pyramid WFS

Author

Heritier, C T, primary, Esposito, S, additional, Fusco, T, additional, Neichel, B, additional, Oberti, S, additional, Briguglio, R, additional, Agapito, G, additional, Puglisi, A, additional, Pinna, E, additional, and Madec, P Y, additional

Published

2018

10. Validation through simulations of a $C_n^2$ profiler for the ESO/VLT Adaptive Optics Facility

Author

Garcia-Rissmann, A., primary, Guesalaga, A., additional, Kolb, J., additional, Le Louarn, M., additional, Madec, P.-Y., additional, and Neichel, B., additional

Published

2015

11. Validation through simulations of a C²n profiler for the ESO/VLT Adaptive Optics Facility.

Author

Garcia-Rissmann, A., Guesalaga, A., Kolb, J., Le Louarn, M., Madec, P.-Y., and Neichel, B.

Subjects

SIMULATION methods & models, ADAPTIVE optics, TURBULENCE, ASTROPHYSICS

Abstract

The Adaptive Optics Facility (AOF) project envisages transforming one of theVLT units into an adaptive telescope and providing its ESO (European Southern Observatory) second generation instruments with turbulence-corrected wavefronts. For MUSE and HAWK-I this correction will be achieved through the GALACSI and GRAALAOmodulesworking in conjunction with a 1170 actuators deformable secondary mirror (DSM) and the new Laser Guide Star Facility (4LGSF). Multiple wavefront sensors will enable GLAO (ground layer adaptive optics) and LTAO (laser tomography adaptive optics) capabilities, whose performance can greatly benefit from a knowledge about the stratification of the turbulence in the atmosphere. This work, totally based on end-to-end simulations, describes the validation tests conducted on a C²n profiler adapted for the AOF specifications. Because an absolute profile calibration is strongly dependent on a reliable knowledge of turbulence parameters r0 and L0, the tests presented here refer only to normalized output profiles. Uncertainties in the input parameters inherent to the code are tested as well as the profiler response to different turbulence distributions. It adopts a correction for the unseen turbulence, critical for the GRAAL mode, and highlights the effects of masking out parts of the corrected wavefront on the results. Simulations of data with typical turbulence profiles from Paranal were input to the profiler, showing that it is possible to identify reliably the input features for all the AOF modes. [ABSTRACT FROM AUTHOR]

Published

2015

12. Achromatic interfero coronagraphy

Author

Baudoz, P., primary, Rabbia, Y., additional, Gay, J., additional, Burg, R., additional, Petro, L., additional, Bely, P., additional, Fleury, B., additional, Madec, P.-Y., additional, and Charbonnier, F., additional

Published

2000

13. Performance analysis for T.H.E.M.I.S* image stabilizer optical system. I. (*)Télescope Héliographique pour l'Etude du Magnétisme et des Instabilités de l'atmosphère Solaire

Author

Molodij, G., primary, Rayrole, J., additional, Madec, P. Y., additional, and Colson, F., additional

Published

1996

14. Optimization of a predictive controller for closed-loop adaptive optics.

Author

Dessenne C, Madec PY, and Rousset G

Abstract

For closed-loop adaptive optics systems limited by time delay and measurement noise, we demonstrate that the ideal rejection transfer function is proportional to the frequency signal-to-noise ratio of the wave-front input. We describe a new modal linear predictive controller that approaches this ideal transfer function. Its parameters are optimized by minimization of the residual wave-front error with a modified recursive least-squares algorithm. The optimization can be performed with closed-loop data in the case of evolving turbulent conditions. We present numerical simulations to show the significant improvements brought by the predictor.

Published

1998