Artículo de revista
The Cosmology Large Angular Scale Surveyor receiver design
Fecha
2018Registro en:
Proceedings of SPIE - The International Society for Optical Engineering, Volumen 10708, 2018.
1996756X
0277786X
10.1117/12.2312954
Autor
Iuliano, Jeffrey
Eimer, Joseph
Parker, Lucas
Rhoades, Gary
Ali, Aamir
Appel, John
Bennett, Charles
Brewer, Michael
Bustos, Ricardo
Chuss, David
Cleary, Joseph
Couto, Jullianna
Dahal, Sumit
Denis, Kevin
Dünner, Rolando
Essinger-Hileman, Thomas
Fluxa, Pedro
Halpern, Mark
Harrington, Kathleen
Helson, Kyle
Hilton, Gene
Hinshaw, Gary
Hubmayr, Johannes
Karakla, John
Marriage, Tobias
Miller, Nathan
McMahon, Jeffrey
Núñez, Carolina
Padilla, Ivan
Palma, Gonzalo A.
Petroft, Matthew
Pradenas Márquez, Bastián
Reeves, Rodrigo
Reintsema, Carl
Rostem, Karwan
Nunes Valle, Deniz
Van Engelhoven, Trevor
Wang, Bingjie
Wanga, Qinan
Watts, Duncan
Weiland, Jenet
Wollack, Edward
Xu, Zhilei
Yan, Ziang
Zeng, Lingzhen
Institución
Resumen
© 2018 SPIE. The Cosmology Large Angular Scale Surveyor consists of four instruments performing a CMB polarization survey. Currently, the 40 GHz and first 90 GHz instruments are deployed and observing, with the second 90 GHz and a multichroic 150/220 GHz instrument to follow. The receiver is a central component of each instrument's design and functionality. This paper describes the CLASS receiver design, using the first 90 GHz receiver as a primary reference. Cryogenic cooling and filters maintain a cold, low-noise environment for the detectors. We have achieved receiver detector temperatures below 50mK in the 40 GHz instrument for 85% of the initial 1.5 years of operation, and observed in-band efficiency that is consistent with pre-deployment estimates. At 90 GHz, less than 26% of in-band power is lost to the filters and lenses in the receiver, allowing for high optical efficiency. We discuss the mounting scheme for the filters and lenses, the alignment of the cold optics and detectors, stray light
control, and magnetic shielding.