Hi-5: a potential high-contrast thermal near-infrared imager for the VLTI
Defrère, D; Ireland, M; Absil, O; et al.Berger, JP; Danchi, WC; Ertel, S; Gallenne, A; Hénault, F; Hinz, P; Huby, E; Kraus, S; Labadie, L; Le Bouquin, JB; Martin, G; Matter, A; Mennesson, B; Mérand, A; Minardi, S; Monnier, JD; Norris, B; Orban de Xivry, , G; Pedretti, E; Pott, JU; Reggianni, M; Serabyn, E; Surdej, J; Tristram, KRW; Woillez, J
Date: 9 July 2018
Journal
Proceedings of SPIE
Publisher
Society of Photo-optical Instrumentation Engineers (SPIE)
Publisher DOI
Abstract
Hi-5 is a high-contrast (or high dynamic range) infrared imager project for the VLTI. Its main goal is to characterize young extra-solar planetary systems and exozodiacal dust around southern main-sequence stars. In this paper, we present an update of the project and key technology pathways to improve the contrast achieved by the VLTI. ...
Hi-5 is a high-contrast (or high dynamic range) infrared imager project for the VLTI. Its main goal is to characterize young extra-solar planetary systems and exozodiacal dust around southern main-sequence stars. In this paper, we present an update of the project and key technology pathways to improve the contrast achieved by the VLTI. In particular, we discuss the possibility to use integrated optics, proven in the near-infrared, in the thermal near-infrared (L and M bands, 3-5 μm) and advanced fringe tracking strategies. We also address the strong exoplanet science case (young exoplanets, planet formation, and exozodiacal disks) offered by this wavelength regime as well as other possible science cases such as stellar physics (fundamental parameters and multiplicity) and extragalactic astrophysics (active galactic nuclei and fundamental constants). Synergies and scientific preparation for other potential future instruments such as the Planet Formation Imager are also briefly discussed.
Physics and Astronomy
Faculty of Environment, Science and Economy
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