TY - GEN
T1 - L-band nulling interferometry at the VLTI with Asgard/NOTT: status and plans
AU - Defrère, Denis
AU - Laugier, Romain
AU - Martinod, Marc-Antoine
AU - Garreau, Germain
AU - Missiaen, Kwinten
AU - Salman, Muhammad
AU - Raskin, Gert
AU - Dandumont, Colin
AU - Loicq, J.J.D.
AU - More Authors, null
PY - 2024
Y1 - 2024
N2 - NOTT (formerly Hi-5) is the L’-band (3.5-4.0μm) nulling interferometer of Asgard, an instrument suite in preparation for the VLTI visitor focus. The primary scientific objectives of NOTT include characterizing (i) young planetary systems near the snow line, a critical region for giant planet formation, and (ii) nearby mainsequence stars close to the habitable zone, with a focus on detecting exozodiacal dust that could obscure Earthlike planets. In 2023-2024, the final warm optics have been procured and assembled in a new laboratory at KU Leuven. First fringes and null measurements were obtained using a Gallium Lanthanum Sulfide (GLS) photonic chip that was also tested at cryogenic temperatures. In this paper, we present an overall update of the NOTT project with a particular focus on the cold mechanical design, the first results in the laboratory with the final NOTT warm optics, and the ongoing Asgard integration activities. We also report on other ongoing activities such as the characterization of the photonic chip (GLS, LiNbO3, SiO), the development of the exoplanet science case, the design of the dispersion control module, and the progress with the self-calibration data reduction software.
AB - NOTT (formerly Hi-5) is the L’-band (3.5-4.0μm) nulling interferometer of Asgard, an instrument suite in preparation for the VLTI visitor focus. The primary scientific objectives of NOTT include characterizing (i) young planetary systems near the snow line, a critical region for giant planet formation, and (ii) nearby mainsequence stars close to the habitable zone, with a focus on detecting exozodiacal dust that could obscure Earthlike planets. In 2023-2024, the final warm optics have been procured and assembled in a new laboratory at KU Leuven. First fringes and null measurements were obtained using a Gallium Lanthanum Sulfide (GLS) photonic chip that was also tested at cryogenic temperatures. In this paper, we present an overall update of the NOTT project with a particular focus on the cold mechanical design, the first results in the laboratory with the final NOTT warm optics, and the ongoing Asgard integration activities. We also report on other ongoing activities such as the characterization of the photonic chip (GLS, LiNbO3, SiO), the development of the exoplanet science case, the design of the dispersion control module, and the progress with the self-calibration data reduction software.
KW - Nulling interferometry
KW - VLTI
KW - exoplanets
KW - exozodiacal disks
KW - high contrast imaging
KW - high angular resolution,
KW - optical fibers
KW - long baseline interferometry
UR - https://www.scopus.com/pages/publications/85208418638
U2 - 10.1117/12.3019922
DO - 10.1117/12.3019922
M3 - Conference contribution
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - Optical and Infrared Interferometry and Imaging IX
A2 - Kammerer, Jens
A2 - Sallum, Stephanie
A2 - Sanchez-Bermudez, Joel
T2 - SPIE Astronomical Telescopes + Instrumentation 2024
Y2 - 15 June 2024 through 21 June 2024
ER -