The Millimeter Sardinia radio Telescope Receiver based on Array of Lumped elements KIDs (MISTRAL) is a new high resolution, wide field-of-view camera that was successfully installed in May 2023 at the Sardinia Radio Telescope (SRT). SRT is a 64m fully steerable gregorian radio telescope, and it underwent an upgrade funded by a National Operational Program (PON) with the aim to expand the fleet of receivers of the radio telescope in order to cover frequency up to the W–band. The W-band sky has been extensively studied by Cosmic Microwave Background experiments, both ground-based (ACT, SPT) and satellite-based (WMAP, Planck). However, their resolution is limited to ≈1′ from ground telescopes and ≈10′ from satellite at best. With this new instrument, we aim to map the microwave sky at a resolution of ≈12′′, a capability only shared by few instruments in the world, unlocking the exploration of a plethora of science cases from the recently upgraded SRT. The heart of MISTRAL is a ≈90 mm silicon focal plane populated with 415 cryogenic Lumped Elements Kinetic Inductance Detectors (LEKIDs). These detectors are copuled with the telescope using a cold (4K) re-imaging optical system, producing a diffraction limited field-of-view of 4′. The system is enclosed in a custom, four stage cryostat, built with strict requirements on its size, in order to fit on the rotating turret that allows to switch the receivers to be quickly moved in and out of the gregorian focus position. The sub-K stage cools the detectors down to 200-240 mK. MISTRAL is now installed on the gregorian focus of SRT and is undergoing the technical commissioning, and will soon enter the scientific commissioning phase. In this contribution we will survey the subsystems of MISTRAL and their performance at the focus of the radio telescope, and report the current status of the technical commissioning.
MISTRAL. Technical commissioning and first W-band photons from the Sardinia radio telescope / Isopi, Giovanni; Cacciotti, Federico; Paiella, Alessandro; Coppolecchia, Alessandro; Barbavara, Eleonora; Battistelli, Elia S.; de Bernardis, Paolo; Capalbo, Valentina; Carbone, Aurora; Carretti, Ettore; Ciccalotti, Daniele; Columbro, Fabio; Cruciani, Angelo; D'Alessandro, Giuseppe; De Petris, Marco; Govoni, Federica; Lamagna, Luca; Marongiu, Pasqualino; Mascia, Adina; Masi, Silvia; Molinari, Emilio; Murgia, Matteo; Navarrini, Alessandro; Novelli, Alessandro; Occhiuzzi, Andrea; Orlati, Andrea; Pettinari, Giorgio; Piacentini, Francesco; Pisanu, Tonino; Poppi, Sergio; Porceddu, Ignazio; Ritacco, Alessia; Schirru, Renata; Vargiu, Gian Paolo. - 13102:(2024), pp. 1-10. (Intervento presentato al convegno Millimeter, submillimeter, and far-Infrared detectors and instrumentation for astronomy XII tenutosi a Yokohama, Japan) [10.1117/12.3019687].
MISTRAL. Technical commissioning and first W-band photons from the Sardinia radio telescope
Cacciotti, Federico;Paiella, Alessandro;Coppolecchia, Alessandro;Barbavara, Eleonora;Battistelli, Elia S.;de Bernardis, Paolo;Capalbo, Valentina;Carbone, Aurora;Ciccalotti, Daniele;Columbro, Fabio;Cruciani, Angelo;D'Alessandro, Giuseppe;De Petris, Marco;Lamagna, Luca;Masi, Silvia;Murgia, Matteo;Novelli, Alessandro;Occhiuzzi, Andrea;Pettinari, Giorgio;Piacentini, Francesco;
2024
Abstract
The Millimeter Sardinia radio Telescope Receiver based on Array of Lumped elements KIDs (MISTRAL) is a new high resolution, wide field-of-view camera that was successfully installed in May 2023 at the Sardinia Radio Telescope (SRT). SRT is a 64m fully steerable gregorian radio telescope, and it underwent an upgrade funded by a National Operational Program (PON) with the aim to expand the fleet of receivers of the radio telescope in order to cover frequency up to the W–band. The W-band sky has been extensively studied by Cosmic Microwave Background experiments, both ground-based (ACT, SPT) and satellite-based (WMAP, Planck). However, their resolution is limited to ≈1′ from ground telescopes and ≈10′ from satellite at best. With this new instrument, we aim to map the microwave sky at a resolution of ≈12′′, a capability only shared by few instruments in the world, unlocking the exploration of a plethora of science cases from the recently upgraded SRT. The heart of MISTRAL is a ≈90 mm silicon focal plane populated with 415 cryogenic Lumped Elements Kinetic Inductance Detectors (LEKIDs). These detectors are copuled with the telescope using a cold (4K) re-imaging optical system, producing a diffraction limited field-of-view of 4′. The system is enclosed in a custom, four stage cryostat, built with strict requirements on its size, in order to fit on the rotating turret that allows to switch the receivers to be quickly moved in and out of the gregorian focus position. The sub-K stage cools the detectors down to 200-240 mK. MISTRAL is now installed on the gregorian focus of SRT and is undergoing the technical commissioning, and will soon enter the scientific commissioning phase. In this contribution we will survey the subsystems of MISTRAL and their performance at the focus of the radio telescope, and report the current status of the technical commissioning.File | Dimensione | Formato | |
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