Scholars@Duke publication: The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization

The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization

Publication , Journal Article

Healy, E; Dutcher, D; Atkins, Z; Austermann, J; Choi, SK; Duell, CJ; Duff, S; Galitzki, N; Huber, ZB; Hubmayr, J; Johnson, BR; McCarrick, H ...

Published in: Journal of Low Temperature Physics

December 1, 2022

Published version (DOI)

The Simons Observatory (SO) will detect and map the temperature and polarization of the millimeter-wavelength sky from Cerro Toco, Chile, across a range of angular scales, providing rich data sets for cosmological and astrophysical analysis. The SO focal planes will be tiled with compact hexagonal packages, called universal focal-plane modules (UFMs), in which the transition-edge sensor (TES) detectors are coupled to 100 mK microwave-multiplexing electronics. Three different types of dichroic TES detector arrays with bands centered at 30/40, 90/150, and 220/280 GHz will be implemented across the 49 planned UFMs. The 90/150 GHz and 220/280 GHz arrays each contain 1764 TESes, which are read out with two 910x multiplexer circuits. The modules contain a series of routed silicon chips, which are packaged together in a controlled electromagnetic environment and operated at 100 mK. Following an overview of the module design, we report on early results from the first 220/280 GHz UFM, including detector yield, as well as readout and detector noise levels.

Duke Scholars

Author Eve M Vavagiakis Physics

Published In

Journal of Low Temperature Physics

DOI

10.1007/s10909-022-02788-8

EISSN

1573-7357

ISSN

0022-2291

Publication Date

December 1, 2022

Volume

209

Issue

5-6

Start / End Page

815 / 823

Related Subject Headings

General Physics
5104 Condensed matter physics
5103 Classical physics
0204 Condensed Matter Physics
0203 Classical Physics
0105 Mathematical Physics

Citation

APA

Chicago

ICMJE

MLA

NLM

Healy, E., Dutcher, D., Atkins, Z., Austermann, J., Choi, S. K., Duell, C. J., … Zheng, K. (2022). The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization. Journal of Low Temperature Physics, 209(5–6), 815–823. https://doi.org/10.1007/s10909-022-02788-8

Healy, E., D. Dutcher, Z. Atkins, J. Austermann, S. K. Choi, C. J. Duell, S. Duff, et al. “The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization.” Journal of Low Temperature Physics 209, no. 5–6 (December 1, 2022): 815–23. https://doi.org/10.1007/s10909-022-02788-8.

Healy E, Dutcher D, Atkins Z, Austermann J, Choi SK, Duell CJ, et al. The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization. Journal of Low Temperature Physics. 2022 Dec 1;209(5–6):815–23.

Healy, E., et al. “The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization.” Journal of Low Temperature Physics, vol. 209, no. 5–6, Dec. 2022, pp. 815–23. Scopus, doi:10.1007/s10909-022-02788-8.

Healy E, Dutcher D, Atkins Z, Austermann J, Choi SK, Duell CJ, Duff S, Galitzki N, Huber ZB, Hubmayr J, Johnson BR, McCarrick H, Niemack MD, Sonka R, Staggs ST, Vavagiakis E, Wang Y, Xu Z, Zheng K. The Simons Observatory 220 and 280 GHz Focal-Plane Module: Design and Initial Characterization. Journal of Low Temperature Physics. 2022 Dec 1;209(5–6):815–823.

Published In

Journal of Low Temperature Physics

DOI

10.1007/s10909-022-02788-8

EISSN

1573-7357

ISSN

0022-2291

Publication Date

December 1, 2022

Volume

209

Issue

5-6

Start / End Page

815 / 823

Related Subject Headings

General Physics
5104 Condensed matter physics
5103 Classical physics
0204 Condensed Matter Physics
0203 Classical Physics
0105 Mathematical Physics