학술논문
Broadband, millimeter-wave antireflection coatings for large-format, cryogenic aluminum oxide optics
Document Type
Working Paper
Author
Nadolski, A.; Vieira, J. D.; Sobrin, J. A.; Kofman, A. M.; Ade, P. A. R.; Ahmed, Z.; Anderson, A. J.; Avva, J. S.; Thakur, R. Basu; Bender, A. N.; Benson, B. A.; Bryant, L.; Carlstrom, J. E.; Carter, F. W.; Cecil, T. W.; Chang, C. L.; Cheshire IV, J. R.; Chesmore, G. E.; Cliche, J. F.; Cukierman, A.; de Haan, T.; Dierickx, M.; Ding, J.; Dutcher, D.; Everett, W.; Farwick, J.; Ferguson, K. R.; Florez, L.; Foster, A.; Fu, J.; Gallicchio, J.; Gambrel, A. E.; Gardner, R. W.; Groh, J. C.; Guns, S.; Guyser, R.; Halverson, N. W.; Harke-Hosemann, A. H.; Harrington, N. L.; Harris, R. J.; Henning, J. W.; Holzapfel, W. L.; Howe, D.; Huang, N.; Irwin, K. D.; Jeong, O.; Jonas, M.; Jones, A.; Korman, M.; Kovac, J.; Kubik, D. L.; Kuhlmann, S.; Kuo, C. -L.; Lee, A. T.; Lowitz, A. E.; McMahon, J.; Meier, J.; Meyer, S. S.; Michalik, D.; Montgomery, J.; Natoli, T.; Nguyen, H.; Noble, G. I.; Novosad, V.; Padin, S.; Pan, Z.; Paschos, P.; Pearson, J.; sada, C. M. Po; Quan, W.; Rahlin, A.; Riebel, D.; Ruhl, J. E.; Sayre, J. T.; Shirokoff, E.; Smecher, G.; Stark, A. A.; Stephen, J.; Story, K. T.; Suzuki, A.; Tandoi, C.; Thompson, K. L.; Tucker, C.; Vanderlinde, K.; Wang, G.; Whitehorn, N.; Yefremenko, V.; Yoon, K. W.; Young, M. R.
Source
Applied Optics, Vol. 59, Issue 10, pp. 3285-3295 (2020)
Subject
Language
Abstract
We present two prescriptions for broadband (~77 - 252 GHz), millimeter-wave antireflection coatings for cryogenic, sintered polycrystalline aluminum oxide optics: one for large-format (700 mm diameter) planar and plano-convex elements, the other for densely packed arrays of quasi-optical elements, in our case 5 mm diameter half-spheres (called "lenslets"). The coatings comprise three layers of commercially-available, polytetrafluoroethylene-based, dielectric sheet material. The lenslet coating is molded to fit the 150 mm diameter arrays directly while the large-diameter lenses are coated using a tiled approach. We review the fabrication processes for both prescriptions then discuss laboratory measurements of their transmittance and reflectance. In addition, we present the inferred refractive indices and loss tangents for the coating materials and the aluminum oxide substrate. We find that at 150 GHz and 300 K the large-format coating sample achieves (97 +/- 2)% transmittance and the lenslet coating sample achieves (94 +/- 3)% transmittance.
Comment: 19 pages, 11 figures; submitted 05 Dec 2019, accepted 26 Feb 2020
Comment: 19 pages, 11 figures; submitted 05 Dec 2019, accepted 26 Feb 2020