Liste des publications avec hyperlien
Au 18 mai 2023 le projet comptabilise :
18 publications de conférence et 8 publications à comité de lecture, ainsi que 2 thèses soutenues.
Publications générales de présentation & d’avancement du projet SPEED
[1] SPEED : get ready for (PCS) rush hour
Martinez et al. ESO Messenger 2023 n°190
[2] The segmented pupil experiment for exoplanet detection. VI. From early design to first lights
Martinez et al. Proceeding of the SPIE 2022
[3] The segmented pupil experiment for exoplanet detection. V. System control and software infrastructure
Martinez et al. Proceeding of the SPIE 2022
[4] The segmented pupil experiment for exoplanet detection. IV. A versatile image-based wavefront sensor for active optics
Martinez et al. Proceeding of the SPIE 2020
[5] The segmented pupil experiment for exoplanet detection. III. Advances and first light with segment cophasing
Martinez et al. Proceeding of the SPIE 2018
[6] The segmented pupil experiment for exoplanet detection. II. Design advances and progress overview
Martinez et al. Proceeding of the SPIE 2016
[7] The segmented pupil experiment for exoplanet detection
Martinez et al. Proceeding of the SPIE 2014
Martinez et al. ESO Messenger 2015 n°159
Etude/définition de sous-systèmes clés
[1] Gearing up the SPEED wavefront shaping strategy
Doyen et al. Proceeding of the SPIE 2022
[2] Metrological characterization of the SPEED test-bed PIAACMC components
Barjot et al. Proceeding of the SPIE 2020
Beaulieu et al. MNRAS 2020, 498
Martinez et al. A&A 2020, Vol. 625, A126
[5] Fast-modulation imaging with the self-coherent camera
Martinez, A&A Letter 2019, 629, L10
[6] An end-to-end Fresnel propagation model for SPEED: PIAACMC implementation and performance
Beaulieu et al. Proceeding of the SPIE 2018
[7] Design, specification and manufacturing of a PIAACMC for the SPEED testbed
Martinez et al. Proceeding of the SPIE 2018
Janin-Potiron et al. A&A 2017
Beaulieu et al. MNRAS 2017, 469
[10] Self-coherent camera as a focal plane phasing sensor
Janin-Potiron et al. A&A 2016, 592, A110
[11] The self-coherent camera as phasing sensor: from numerical simulations to early experiments
Janin-Potiron et al. Proceeding of the SPIE 2016
[12] SPEED design optimization via Fresnel propagation analysis
Beaulieu et al. Proceeding of the SPIE 2016
[13] The self-coherent camera as a focal plane phasing sensor
Janin-Potiron et al. EAS publications series 78-79 2016
Preis et al. Proceeding of the AO4ELT 4th Edition 2015
[15] A Fresnel propagation analysis for SPEED
Beaulieu et al. Proceeding of the AO4ELT 4th Edition 2015
Janin-Potiron et al. Proceeding of the AO4ELT 4th Edition 2015
Publications en relation avec le projet SPEED
[1] Analytical decomposition of Zernike and hexagonal modes over an hexagonal segmented optical aperture
Janin-Potiron, Martinez and Carbillet, OSA Continuum 2018 - 1(2), 715-726
[2] Laser guide stars used for cophasing broad capture ranges
Martinez and Janin-Potiron, A&A Letter 2016, 593, L1
Thèses
Janin-Potiron Pierre, Université Côte d’Azur 2017 (Prix SF2A 2018)
[2] Imagerie optique à très haut contraste : une approche instrumentale optimale
Beaulieu Mathilde, Université Côte d’Azur 2017
Résultats obtenus sur le banc
(Prochainement)