Design and pre-flight performance of SPIDER 280 GHz receivers

In this work we describe upgrades to the Spider balloon-borne telescope in preparation for its second flight, currently planned for December 2021. The Spider instrument is optimized to search for a primordial B-mode polarization signature in the cosmic microwave background at degree angular scales....

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Bibliographic Details
Published in:Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy X
Main Authors: Shaw, E. C., Ade, P. A. R., Akers, S., Amiri, M., Austermann, Jason E., Beall, James A., Becker, D.T., Benton, S.J., Bergman, A. S., Bock, J.J., Bond, J.R., Bryan, S.A., Chiang, H.C., Contaldi, C.R., Domagalski, R.S., Dore, O., Duff, S. M., Duivenvoorden, A.J., Eriksen, H.K., Farhang, M., Filippini, J. P., Fissel, L.M., Fraisse, A.A., Freese, K., Galloway, M., Gambrel, A. E., Gandilo, N.N., Ganga, K., Grigorian, A., Gualtieri, R, Gudmundsson, J.E., Halpern, M., Hartley, J., Hasselfield, M., Hilton, G., Holmes, W., Hristov, V.V., Huang, Z., Hubmayr, Johannes, Irwin, K.D., Jones, W.C., Kahn, A., Kuo, C.L., Kermish, Z.D., Lennox, A., Leung, J. S.-Y., Megerian, K., Reintsema, C., Li, S., Mason, P.V.
Other Authors: Zmuidzinas, Jonas, Gao, Jian-Rong
Format: Conference Object
Language:unknown
Published: SPIE 2020
Subjects:
Antarctic
Antarc*
Online Access:https://orca.cardiff.ac.uk/id/eprint/157431/
https://doi.org/10.1117/12.2562941
Description
Summary:In this work we describe upgrades to the Spider balloon-borne telescope in preparation for its second flight, currently planned for December 2021. The Spider instrument is optimized to search for a primordial B-mode polarization signature in the cosmic microwave background at degree angular scales. During its first flight in 2015, Spider mapped ~10% of the sky at 95 and 150 GHz. The payload for the second Antarctic flight will incorporate three new 280 GHz receivers alongside three refurbished 95- and 150 GHz receivers from Spider's first flight. In this work we discuss the design and characterization of these new receivers, which employ over 1500 feedhorn-coupled transition-edge sensors. We describe pre-flight laboratory measurements of detector properties, and the optical performance of completed receivers. These receivers will map a wide area of the sky at 280 GHz, providing new information on polarized Galactic dust emission that will help to separate it from the cosmological signal.

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