Cooling down large test masses up to 200 kg, as foreseen for the Einstein Telescope, is a complex challenge combining cutting-edge technological achievements from different disciplines with the experience gained from both room-temperature and cryogenic-temperature detector development communities. We set up an apparatus designed to test cryogenic mechanical suspensions for the payload system. They should have high quality factors and enable sufficient heat extraction greater than (Formula presented.) W. The facility is on a university campus where cryofluid servicing is not feasible. As a result, a system that incorporates conductive cooling technology was developed. The project has two main goals: validating crystalline suspensions in a realistic Einstein Telescope cryogenic payload and testing new solutions for radiative thermal shielding. No particular measures are planned for the vibration isolation system.
Cryogenic facility for prototyping ET-LF payloads using conductive cooling / Ricci, Marco; Benedetti, Eugenio; Cruciani, Angelo; Hoang, Van Long; Kalemi, Benedetta; Naticchioni, Luca; Orsini, Marco; Pirro, Stefano; Puppo, Paola; Rapagnani, Piero; Ricci, Fulvio; Tofani, Emanuele; Majorana, Ettore. - In: GALAXIES. - ISSN 2075-4434. - 13:1(2025), pp. 1-12. [10.3390/galaxies13010012]
Cryogenic facility for prototyping ET-LF payloads using conductive cooling
Marco Ricci
;Angelo Cruciani;Van Long Hoang;Benedetta Kalemi;Luca Naticchioni;Marco Orsini;Stefano Pirro;Paola Puppo;Piero Rapagnani;Ettore Majorana
2025
Abstract
Cooling down large test masses up to 200 kg, as foreseen for the Einstein Telescope, is a complex challenge combining cutting-edge technological achievements from different disciplines with the experience gained from both room-temperature and cryogenic-temperature detector development communities. We set up an apparatus designed to test cryogenic mechanical suspensions for the payload system. They should have high quality factors and enable sufficient heat extraction greater than (Formula presented.) W. The facility is on a university campus where cryofluid servicing is not feasible. As a result, a system that incorporates conductive cooling technology was developed. The project has two main goals: validating crystalline suspensions in a realistic Einstein Telescope cryogenic payload and testing new solutions for radiative thermal shielding. No particular measures are planned for the vibration isolation system.| File | Dimensione | Formato | |
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