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Published June 5, 2023 | public
Journal Article Metadata-only

Plastic Laminate Antireflective Coatings for Millimeter-Wave Optics in BICEP Array

Dierickx, M. ORCID icon
Ade, P. A. R. ORCID icon
Ahmed, Z.
Amiri, M ORCID icon
Barkats, D. ORCID icon
Basu Thakur, R. ORCID icon
Bischoff, C. A.
Beck, D. H. ORCID icon
Bock, J. J. ORCID icon
Buza, V.
Cheshire, J. R. ORCID icon
Connors, J. ORCID icon
Cornelison, J. ORCID icon
Crumrine, M.
Cukierman, A. ORCID icon
Denison, E. V.
Duband, L.
Eiben, M.
Fatigoni, S. ORCID icon
Filippini, J. P. ORCID icon
Goeckner-Wald, N.
Goldfinger, D. C. ORCID icon
Grayson, J. A.
Grimes, P. ORCID icon
Hallinan, G. ORCID icon
Halal, G. ORCID icon
Halpern, M. ORCID icon
Hand, E.
Harrison, S. C.
Henderson, S. W.
Hildebrandt, S. R. ORCID icon
Hilton, G. C. ORCID icon
Hubmayr, J. ORCID icon
Hui, H. ORCID icon
Irwin, K. D. ORCID icon
Kang, J. ORCID icon
Karkare, K. S. ORCID icon
Kefeli, S.
Kovac, J. M. ORCID icon
Kuo, C. L.
Lau, K. Y.
Leitch, E. M. ORCID icon
Lennox, A.
Megerian, K. G.
Minutolo, L. ORCID icon
Moncelsi, L. ORCID icon
Nakato, Y.
Namikawa, T. ORCID icon
Nguyen, H. T.
O'Brient, R. ORCID icon
Palladino, S.
Petroff, M. A. ORCID icon
Precup, N.
Prouvé, T. ORCID icon
Pryke, C.
Racine, B. ORCID icon
Reintsema, C. D. ORCID icon
Santalucia, D.
Schillaci, A. ORCID icon
Schmitt, B. L.
Singari, B. ORCID icon
Soliman, A. ORCID icon
St. Germaine, T.
Steinbach, B. ORCID icon
Sudiwala, R. V. ORCID icon
Thompson, K. L.
Tucker, C. ORCID icon
Turner, A. D.
Umilta, C. ORCID icon
Vergès, C. ORCID icon
Vieregg, A. G.
Wandui, A. ORCID icon
Weber, A. C.
Wiebe, D. V. ORCID icon
Willmert, J. ORCID icon
Wu, W. L. K. ORCID icon
Yang, E.
Yoon, K. W.
Young, E. T.
Yu, C. J.
Zeng, L. ORCID icon
Zhang, C. ORCID icon
Zhang, S.

Abstract

The BICEP/Keck series of experiments target the cosmic microwave background at degree-scale resolution from the South Pole. Over the next few years, the "Stage-3" BICEP Array (BA) telescope will improve the program's frequency coverage and sensitivity to primordial B-mode polarization by an order of magnitude. The first receiver in the array, BA1, began observing at 30/40 GHz in early 2020. The next two receivers, BA2 and BA3, are currently being assembled and will map the southern sky at frequencies ranging from 95 to 150 GHz. Common to all BA receivers is a refractive, on-axis, cryogenic optical design that focuses microwave radiation onto a focal plane populated with antenna-coupled bolometers. High-performance antireflective coatings up to 760 mm in aperture are needed for each element in the optical chain, and must withstand repeated thermal cycles down to 4 K. Here, we present the design and fabrication of the 30/40 GHz anti-reflection coatings for the recently deployed BA1 receiver, with indices matched to its various polyethylene, nylon and alumina optical components. We describe an epoxy coating technique designed for alumina optics, which achieves better than 80% transmission at room temperature. For polyethylene optical elements, we present a new heat-compression approach that allows low-density polytetrafluoroethylene AR layers to reach sub-percent reflected power. We describe the planned use of these methods for the next BA cryostats, which may inform technological choices for future small-aperture telescopes of the CMB-S4 experiment.

Additional Information

© 2023 Springer Nature. The BICEP/Keck projects have been made possible through a series of grants from the National Science Foundation including Grants No. 0742818, No. 0742592, No. 1044978, No. 1110087, No. 1145172, No. 1145143, No. 1145248, No. 1639040, No. 1638957, No. 1638978 and No. 1638970, and by the Keck Foundation. The development of antenna-coupled detector technology was supported by the JPL Research and Technology Development Fund, and by NASA Grants No. 06-ARPA206-0040, No. 10-SAT10-0017, No. 12- SAT12-0031, No. 14-SAT14-0009 and No. 16-SAT-16- 0002. The development and testing of focal planes were supported by the Gordon and Betty Moore Foundation at Caltech. Readout electronics were supported by a Canada Foundation for Innovation grant to UBC. Support for quasioptical filtering was provided by UK STFC Grant No. ST/N000706/1. The computations in this work were run on the Odyssey/Cannon cluster supported by the FAS Science Division Research Computing Group at Harvard University. The analysis effort at Stanford and S. L. A. C. is partially supported by the U.S. DOE Office of Science. We thank the staff of the U.S. Antarctic Program and in particular the South Pole Station without whose help this research would not have been possible. We thank all those who have contributed past efforts to the BICEP/Keck series of experiments, including the BICEP1 team.

Additional details

Identifiers Funding Dates Caltech Custom Metadata
Created:
August 22, 2023
Modified:
October 20, 2023