The EXoplanet Climate Infrared TElescope (EXCITE) is an instrument dedicated to measuring spectroscopic phase curves of extrasolar giant planets. EXCITE will carry a moderate resolution near-infrared spectrograph and will fly on a long duration balloon mission. We give an overview of the mechanical and thermal design and development status of the EXCITE cryogenic receiver. Active cooling for the EXCITE cryostat is provided by two linear pulse-tube cryocoolers. We discuss cryocooler thermal performance, integration of the spectrometer and detector, and the mounting scheme that attaches the cryostat to the backplate of the telescope. To reject heat power from the cryocoolers, gravity-assisted copper-methanol thermosyphons will maintain cryocooler temperatures within 20 ◦C of ambient temperature during operation. We discuss the results of preliminary thermal modeling of the thermosyphons as well as performance testing of a prototype built for in-lab verification.
Toward ARIEL’s primary mirror / Tozzi, Andrea; Brucalassi, Anna; Canestrari, Rodolfo; Chioetto, Paolo; Del Vecchio, Ciro; Carbonaro, Luca; Cortecchia, Fausto; Diolaiti, Emiliano; Eccleston, Paul; Falcini, Gilberto; Ferruzzi, Debora; Gottini, Daniele; Guerriero, Elisa; Iuzzolino, Marcella; Lilli, Riccardo; Lombini, Matteo; Malaguti, Giuseppe; Micela, Giuseppina; Miceli, Federico; Morgante, Gianluca; Pace, Emanuele; Pascale, Enzo; Piazzolla, Raffaele; Preti, Giampaolo; Salatti, Mario; Scippa, Antonio; Tinetti, Giovanna; Tommasi, Elisabetta; Vernani, Dervis; Zuppella, Paola. - (2022). (Intervento presentato al convegno SPIE ASTRONOMICAL TELESCOPES + INSTRUMENTATION tenutosi a Montréal, Québec, Canada) [10.1117/12.2628906].
Toward ARIEL’s primary mirror
Guerriero, Elisa;Pascale, Enzo;Tinetti, Giovanna;
2022
Abstract
The EXoplanet Climate Infrared TElescope (EXCITE) is an instrument dedicated to measuring spectroscopic phase curves of extrasolar giant planets. EXCITE will carry a moderate resolution near-infrared spectrograph and will fly on a long duration balloon mission. We give an overview of the mechanical and thermal design and development status of the EXCITE cryogenic receiver. Active cooling for the EXCITE cryostat is provided by two linear pulse-tube cryocoolers. We discuss cryocooler thermal performance, integration of the spectrometer and detector, and the mounting scheme that attaches the cryostat to the backplate of the telescope. To reject heat power from the cryocoolers, gravity-assisted copper-methanol thermosyphons will maintain cryocooler temperatures within 20 ◦C of ambient temperature during operation. We discuss the results of preliminary thermal modeling of the thermosyphons as well as performance testing of a prototype built for in-lab verification.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
