Optical Performance of the BICEP2 Telescope at the South Pole

Bicep2 deployed to the South Pole during the 2009-2010 austral summer, and is now mapping the polarization of the cosmic microwave background (CMB), searching for evidence of inflationary cosmology. Bicep2 belongs to a new class of telescopes including Keck (ground-based) and Spider (balloon-borne)...

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Bibliographic Details
Main Authors: Aikin, Randol W., Bock, J. J., Brevik, J. A., Dowell, C. D., Filippini, J. P., Golwala, S. R., Hristov, V. V., Lange, A. E., Nguyen, H. T., Orlando, A., Richter, S., Runyan, M. C., Teply, G. P.
Other Authors: Holland, Wayne S., Zmuidzinas, Jonas
Format: Book Part
Language:English
Published: Society of Photo-optical Instrumentation Engineers (SPIE) 2010
Subjects:
Austral
South Pole
South pole
Online Access:https://authors.library.caltech.edu/22833/
https://authors.library.caltech.edu/22833/1/Aikin2010p12899Adaptive_Optics_Systems_Pts_1-3.pdf
https://resolver.caltech.edu/CaltechAUTHORS:20110311-145009599
Description
Summary:Bicep2 deployed to the South Pole during the 2009-2010 austral summer, and is now mapping the polarization of the cosmic microwave background (CMB), searching for evidence of inflationary cosmology. Bicep2 belongs to a new class of telescopes including Keck (ground-based) and Spider (balloon-borne) that follow on Bicep's strategy of employing small, cold, on-axis refracting optics. This common design provides key advantages ideal for targeting the polarization signature from inflation, including: (i) A large field of view, allowing substantial light collecting power despite the small aperture, while still resolving the degree-scale polarization of the CMB; (ii) liquid helium-cooled optics and cold stop, allowing for low, stable instrument loading; (iii) the ability to rotate the entire telescope about the boresight; (iv) a baffled primary aperture, reducing sidelobe pickup; and (v) the ability to characterize the far field optical performance of the telescope using ground-based sources. We describe the last of these advantages in detail, including our efforts to measure the main beam shape, beammatch between orthogonally-polarized pairs, polarization efficiency and response angle, sidelobe pickup, and ghost imaging. We do so with ground-based polarized microwave sources mounted in the far field as well as with astronomical calibrators. Ultimately, Bicep2's sensitivity to CMB polarization from inflation will rely on precise calibration of these beam features.

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