AO4ELT5 Proceedings
SHARK-NIR, the coronagraphic camera for LBT, moving toward construction
Farinato, Jacopo (INAF Padova - ADONI), Bacciotti, Francesca (INAF Arcetri), Baffa, Carlo (INAF Arcetri), Baruffolo, Andrea (INAF Padova), Bergomi, Maria (INAF Padova - ADONI), Bianco, Andrea (INAF Brera), Bongiorno, Angela (INAF Roma), Carbonaro, Luca (INAF Arcetri - ADONI), Carolo, Elena (INAF Padova - ADONI), Carlotti, Alexis (IPAG), Chinellato, Simonetta (INAF Padova - ADONI), Close, Laird (University of Arizona - SO), De Pascale, Marco (INAF Padova), Dima, Marco (INAF Padova - ADONI), Dorazi, Valentina (INAF Padova), Esposito, Simone (INAF Arcetri - ADONI), Fantinel, Daniela (INAF Padova), Farisato, Giancarlo (INAF Padova - ADONI), Gaessler, Wolfgang (MPIA), Giallongo, Emanuele (INAF Roma - ADONI), Greggio, Davide (INAF Padova - ADONI), Guyon, Olivier (University of Arizona - SO), Hinz, Philip (University of Arizona - SO), Lessio, Luigi (INAF Padova - ADONI), Lisi, Franco (INAF Padova), Magrin, Demetrio (INAF Padova - ADONI), Marafatto, Luca (INAF Padova - ADONI), Mesa, Dino (INAF Padova), Mohr, Lars (MPIA), Montoya, Manny (University of Arizona - SO), Pedichini, Fernando (INAF Roma - ADONI), Pinna, Enrico (INAF Arcetri - ADONI), Puglisi, Alfio (INAF Arcetri - ADONI), Ragazzoni, Roberto (INAF Padova - ADONI), Salasnich, Bernardo (INAF Padova), Stangalini, Marco (INAF Roma - ADONI), Vassallo, Daniele (INAF Padova - University of Padova - ADONI), Verinaud, Christophe (IPAG), Viotto, Valentina (INAF Padova - ADONI), Zanutta, Alessio (INAF Brera)
SHARK-NIR is one of the two coronagraphic instruments proposed for the Large Binocular Telescope. Together with SHARK-VIS (performing coronagraphic imaging in the visible domain), it will offer the possibility to do binocular observations combining direct imaging, coronagraphic imaging and coronagraphic low resolution spectroscopy in a wide wavelength domain, going from 0.5µm to 1.7µm. Additionally, the contemporary usage of LMIRCam, the coronagraphic LBTI NIR camera, working from K to L band, will extend even more the covered wavelength range. In January 2017 SHARK-NIR underwent a successful final design review, which endorsed the instrument for construction and future implementation at LBT. We report here the final design of the instrument, which foresees two intermediate pupil planes and three focal planes to accomodate a certain number of coronagraphic techniques, selected to maximize the instrument contrast at various distances from the star. Exo-Planets search and characterization has been the science case driving the instrument design, but the SOUL upgrade of the LBT AO will increase the instrument performance in the faint end regime, allowing to do galactic (jets and disks) and extra-galactic (AGN and QSO) science on a relatively wide sample of targets, normally not reachable in other similar facilities.
DOI: 10.26698/AO4ELT5.0074- Proceeding PDF
