1. Assembly and Integration Process of the High-Density Detector Array Readout Modules for the Simons Observatory
- Author
-
Yaqlong Li, Kam Arnold, Zachary Atkins, Sarah Marie Bruno, Nicholas F. Cothard, Bradley Dober, Cody J. Duell, Shannon M. Duff, Patricio A. Gallardo, Erin Healy, Shuay‑Pwu Patty Ho, Johannes Hubmayr, Brian Keating, Adrian T Lee, Aashrita Mangu, Heather McCarrick, Michael D. Niemack, Laura Newburgh, Christopher Raum, Maria Salatino, Trevor Sasse, Maximiliano Silva‑Feaver, Sara M. Simon, Suzanne Staggs, Aritoki Suzuki, Joel Ullom, Eve M. Vavagiakis, Michael R. Vissers, Yuhan Wang, Benjamin Westbrook, Edward J Wollack, Zhilei Xu, Kaiwen Zheng, and Ningfeng Zhu
- Subjects
Astronomy ,Instrumentation And Photography - Abstract
The Simons Observatory will measure the cosmic microwave background tempera-ture and polarization using a suite of new telescopes in the Atacama Desert in Chile. The Simons Observatory will use dichroic transition edge sensor (TES) bolometer arrays spanning six frequency bands from 27 to 280 GHz. The Simons Observa-tory will pioneer the use of a densely packed multiplexing architecture based on the microwave SQUID multiplexer ( 𝜇mux), housing ∼2000 microwave resonators, each coupled to a TES. The Simons Observatory aims to multiplex each array of ∼2000 detectors with a single pair of coaxial cables and requires a multiplexing factor of ∼1000 . The Simons Observatory cryogenic readout system is called the universal microwave multiplexing module (UMM). The UMM couples to both horn and lenslet-coupled detector arrays and is integrated into the universal focal-plane module (UFM) after being independently characterized. We present processes we have developed for highly repeatable and automated integration methods of UMMs, which will be needed for the production of the 49 UFMs required for the first stage of the Simons Observatory.
- Published
- 2020
- Full Text
- View/download PDF