We have measured in the W-band, using a custom setup, the absorption and polarization properties in transmission of foam materials (elyfoamⓇ, styrodurⓇ, plastazoteⓇ, and propozoteⓇ) useful for windows of mm-wave photometers and polarimeters. The levels of the induced polarization degree and of the absorption are very small, and difficult to measure accurately. We find induced polarization degrees lower than 0.6 %, and transmissions higher than 97 % for few centimeter thicknesses of our samples. We describe the instrumental setup, the measurements, and the impact of our findings in the design of precision polarimeters for Cosmic Microwave Background measurements. All these materials, with the exception of black plastazoteⓇ, feature transmissions higher than 99 %, and induced polarizations lower than ∼1 % for sample thicknesses around 2–3 cm.
Coppi, G., Marchetti, T., de Bernardis, P., Masi, S. (2016). Measurements of the Polarization Properties of Foam Materials Useful for mm-wave Polarimeters Windows. JOURNAL OF INFRARED, MILLIMETER, AND TERAHERTZ WAVES, 37(8), 815-824 [10.1007/s10762-016-0272-y].
Measurements of the Polarization Properties of Foam Materials Useful for mm-wave Polarimeters Windows
Coppi G.;
2016
Abstract
We have measured in the W-band, using a custom setup, the absorption and polarization properties in transmission of foam materials (elyfoamⓇ, styrodurⓇ, plastazoteⓇ, and propozoteⓇ) useful for windows of mm-wave photometers and polarimeters. The levels of the induced polarization degree and of the absorption are very small, and difficult to measure accurately. We find induced polarization degrees lower than 0.6 %, and transmissions higher than 97 % for few centimeter thicknesses of our samples. We describe the instrumental setup, the measurements, and the impact of our findings in the design of precision polarimeters for Cosmic Microwave Background measurements. All these materials, with the exception of black plastazoteⓇ, feature transmissions higher than 99 %, and induced polarizations lower than ∼1 % for sample thicknesses around 2–3 cm.
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