CaltechAUTHORS
Published July 9, 2018 | Published + Submitted
Book Section - Chapter Open

BICEP Array: a multi-frequency degree-scale CMB polarimeter

Hui, Howard
Aikin, R. W.
Bock, J. J. ORCID icon
Brevik, J. A.
Hildebrandt, S. R.
Kefeli, S.
Lueker, M.
Moncelsi, L. ORCID icon
O'Brient, R.
Schillaci, A.
Soliman, A.
Staniszewski, Z. K.
Steinbach, B.
Teply, G. P.
Wandui, A.
Zhang, C. ORCID icon
Others:
Zmuidzinas, Jonas
Gao, Jian-Rong
An error occurred while generating the citation.

Abstract

Bicep Array is the newest multi-frequency instrument in the Bicep/Keck Array program. It is comprised of four 550mm aperture refractive telescopes observing the polarization of the cosmic microwave background (CMB) at 30/40, 95, 150 and 220/270 GHz with over 30,000 detectors. We present an overview of the receiver, detailing the optics, thermal, mechanical, and magnetic shielding design. Bicep Array follows Bicep3's modular focal plane concept, and upgrades to 6" wafer to reduce fabrication with higher detector count per module. The first receiver at 30/40GHz is expected to start observing at the South Pole during the 2019-20 season. By the end of the planned Bicep Array program, we project 0.002 ⪅ σ(r) ⪅ 0.006, assuming current modeling of polarized Galactic foreground and depending on the level of delensing that can be achieved with higher resolution maps from the South Pole Telescope.

Additional Information

© 2018 Society of Photo-optical Instrumentation Engineers (SPIE). The BICEP/Keck Array project have been made possible through a series of grants from the National Science Foundation including 0742818, 0742592, 1044978, 1110087, 1145172, 1145143, 1145248, 1639040, 1638957, 1638978, 1638970, & 1726917 and by the Keck Foundation. The development of antenna-coupled detector technology was supported by the JPL Research and Technology Development Fund and NASA Grants 06-ARPA206-0040, 10-SAT10-0017, 12-SAT12-0031, 14-SAT14-0009 & 16-SAT16-0002. The development and testing of focal planes were supported by the Gordon and Betty Moore Foundation at Caltech. Readout electronics were supported by a Canada Foundation for Innovation grant to UBC. The computations in this paper were run on the Odyssey cluster supported by the FAS Science Division Research Computing Group at Harvard University. The analysis effort at Stanford and SLAC is partially supported by the U.S. DoE Office of Science. We thank the staff of the U.S. Antarctic Program and in particular the South Pole Station without whose help this research would not have been possible. Tireless administrative support was provided by Kathy Deniston, Sheri Stoll, Irene Coyle, Donna Hernandez, and Dana Volponi.

Attached Files

Published - 1070807.pdf

Submitted - 1808.00568.pdf

Files

1070807.pdf
Files (5.1 MB)
Name Size Download all
md5:dae7be76e09e1b063c1f0a7ce28d2331
1.8 MB Preview Download
md5:5f5db027e43837eddbb9acfe9adf225b
3.3 MB Preview Download

Additional details

Identifiers Related works Funding Dates Caltech Custom Metadata
Created:
August 19, 2023
Modified:
January 14, 2024