Scholars@Duke publication: Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design

Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design

Publication , Journal Article

Sathyanarayana Rao, M; Silva-Feaver, M; Ali, A; Arnold, K; Ashton, P; Dober, BJ; Duell, CJ; Duff, SM; Galitzki, N; Healy, E; Henderson, S ...

Published in: Journal of Low Temperature Physics

May 1, 2020

Published version (DOI)

The Simons Observatory (SO) is an upcoming polarization-sensitive cosmic microwave background experiment on the Cerro Toco Plateau (Chile) with large overlap with other optical and infrared surveys (e.g., DESI, LSST, HSC). To enable the readout of O(10,000) detectors in each of the four telescopes of SO, we will employ the microwave SQUID multiplexing technology. With a targeted multiplexing factor of O(1000), microwave SQUID multiplexing has never been deployed on the scale needed for SO. Here we present the design of the cryogenic coaxial cable and RF component chain that connects room temperature readout electronics to superconducting resonators that are coupled to transition edge sensor bolometers operating at sub-Kelvin temperatures. We describe design considerations including cryogenic RF component selection, system linearity, noise, and thermal power dissipation.

Duke Scholars

Author Eve M Vavagiakis Physics

Published In

Journal of Low Temperature Physics

DOI

10.1007/s10909-020-02429-y

EISSN

1573-7357

ISSN

0022-2291

Publication Date

May 1, 2020

Volume

199

Issue

3-4

Start / End Page

807 / 816

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

Sathyanarayana Rao, M., Silva-Feaver, M., Ali, A., Arnold, K., Ashton, P., Dober, B. J., … Zhu, N. (2020). Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design. Journal of Low Temperature Physics, 199(3–4), 807–816. https://doi.org/10.1007/s10909-020-02429-y

Sathyanarayana Rao, M., M. Silva-Feaver, A. Ali, K. Arnold, P. Ashton, B. J. Dober, C. J. Duell, et al. “Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design.” Journal of Low Temperature Physics 199, no. 3–4 (May 1, 2020): 807–16. https://doi.org/10.1007/s10909-020-02429-y.

Sathyanarayana Rao M, Silva-Feaver M, Ali A, Arnold K, Ashton P, Dober BJ, et al. Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design. Journal of Low Temperature Physics. 2020 May 1;199(3–4):807–16.

Sathyanarayana Rao, M., et al. “Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design.” Journal of Low Temperature Physics, vol. 199, no. 3–4, May 2020, pp. 807–16. Scopus, doi:10.1007/s10909-020-02429-y.

Sathyanarayana Rao M, Silva-Feaver M, Ali A, Arnold K, Ashton P, Dober BJ, Duell CJ, Duff SM, Galitzki N, Healy E, Henderson S, Ho SPP, Hoh J, Kofman AM, Kusaka A, Lee AT, Mangu A, Mathewson J, Mauskopf P, McCarrick H, Moore J, Niemack MD, Raum C, Salatino M, Sasse T, Seibert J, Simon SM, Staggs S, Stevens JR, Teply G, Thornton R, Ullom J, Vavagiakis EM, Westbrook B, Xu Z, Zhu N. Simons Observatory Microwave SQUID Multiplexing Readout: Cryogenic RF Amplifier and Coaxial Chain Design. Journal of Low Temperature Physics. 2020 May 1;199(3–4):807–816.

Published In

Journal of Low Temperature Physics

DOI

10.1007/s10909-020-02429-y

EISSN

1573-7357

ISSN

0022-2291

Publication Date

May 1, 2020

Volume

199

Issue

3-4

Start / End Page

807 / 816

Related Subject Headings

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