Peer-Reviewed Journal Details
Mandatory Fields
Marnieros S.;Ade P.;Alberro J.;Almela A.;Amico G.;Arnaldi L.;Auguste D.;Aumont J.;Azzoni S.;Banfi S.;Battaglia P.;Battistelli E.;Baù A.;Bélier B.;Bennett D.;Bergé L.;Bernard J.;Bersanelli M.;Bigot-Sazy M.;Bleurvacq N.;Bonaparte J.;Bonis J.;Bottani A.;Bunn E.;Burke D.;Buzi D.;Cavaliere F.;Chanial P.;Chapron C.;Charlassier R.;Columbro F.;Coppolecchia A.;D’Alessandro G.;de Bernardis P.;De Gasperis G.;De Leo M.;De Petris M.;Dheilly S.;Dumoulin L.;Etchegoyen A.;Fasciszewski A.;Ferreyro L.;Fracchia D.;Franceschet C.;Gamboa Lerena M.;Ganga K.;García B.;García Redondo M.;Gaspard M.;Gayer D.;Gervasi M.;Giard M.;Gilles V.;Giraud-Heraud Y.;Gómez Berisso M.;González M.;Gradziel M.;Grandsire L.;Hamilton J.;Harari D.;Henrot-Versillé S.;Hoang D.;Incardona F.;Jules E.;Kaplan J.;Kristukat C.;Lamagna L.;Loucatos S.;Louis T.;Maffei B.;Marty W.;Masi S.;Mattei A.;May A.;McCulloch M.;Mele L.;Melhuish S.;Mennella A.;Montier L.;Mousset L.;Mundo L.;Murphy J.;Nati F.;Olivieri E.;Oriol C.;O’Sullivan C.;Paiella A.;Pajot F.;Passerini A.;Pastoriza H.;Pelosi A.;Perbost C.;Perciballi M.;Pezzotta F.;Piacentini F.;Piat M.;Piccirillo L.;Pisano G.;Platino M.
2020
January
Low Temperature Physics
TES Bolometer Arrays for the QUBIC B-Mode CMB Experiment
Published
()
Optional Fields
Cosmic microwave background Cryogenic detectors Transition edge sensors
© 2020, Springer Science+Business Media, LLC, part of Springer Nature. QUBIC is a ground-based experiment aiming to measure the B-mode polarization of the cosmic microwave background. The developed instrument is an innovative two-frequency band bolometric interferometer that will operate at 300 mK with NbSi TES arrays. In this paper, we describe the fabrication process of the detectors.
0022-2291
10.1007/s10909-019-02304-5
Grant Details