Liste des publications avec hyperlien
Au 7 Juillet 2024 le projet comptabilise :
21 publications de conférence et 12 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 the first lights
Martinez et al. Proceeding of the SPIE 2022
Martinez et al. Proceeding of the SPIE 2022
Martinez et al. Proceeding of the SPIE 2020
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] High contrast at small angular separations: III. Impact on the dark hole of MEMS deformable mirror control electronics
Martinez et al. MNRAS 2024, sous press
[2] Revisiting optical transfer function-based focal plane wavefront sensors for correcting NCPAs
Martinez et al. Proceeding of the SPIE 2024
[3] Differential optical transfer function (dOTF) wavefront sensing with the SPEED test-bed
Dharmadhikari et al. Proceeding of the SPIE 2024
Sallard et al. Proceeding of the SPIE 2024
Martinez et al. A&A 684 L5 Letter 2023
Martinez et al. A&A 2023, Vol. 680, A6
[7] Gearing up the SPEED wavefront shaping strategy
Doyen et al. Proceeding of the SPIE 2022
[8] 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
[11] Fast-modulation imaging with the self-coherent camera
Martinez, A&A Letter 2019, 629, L10
[12] An end-to-end Fresnel propagation model for SPEED: PIAACMC implementation and performance
Beaulieu et al. Proceeding of the SPIE 2018
[13] 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
[16] Self-coherent camera as a focal plane phasing sensor
Janin-Potiron et al. A&A 2016, 592, A110
[17] The self-coherent camera as phasing sensor: from numerical simulations to early experiments
Janin-Potiron et al. Proceeding of the SPIE 2016
[18] SPEED design optimization via Fresnel propagation analysis
Beaulieu et al. Proceeding of the SPIE 2016
[19] 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
[21] 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
Martinez, A&A 684 L5 Letter 2024
[2] 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
[3] 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