AI Article Synopsis
- There is a shortage of optical elements for mid-infrared wavelengths, especially when broad wavelength coverage is needed.
- A new polarizer design using uncoated silicon Brewster plates has been proposed, which includes a detailed analysis of performance factors such as contrast and reflections.
- The four-plate polarizer shows high contrast (over 10) across a wavelength range of 1.2-6.5 µm, making it a cost-effective and powerful solution for separating signal and idler beams in mid-infrared optical sources.
Article Abstract
The availability of optical elements for the mid-infrared wavelength range, such as polarizers and wavelength separators, is limited especially when a broadband wavelength range coverage is required. We propose a polarizer based on uncoated silicon Brewster plates. A detailed analysis of the polarizer's contrast and the influence of parasitic reflections, its dependence on wavelength, and the angular misalignment is shown. Two different arrangements of the two- and four-plate polarizers are discussed. With contrast including the influence of parasitic reflections of over 10 for the whole transparency range of silicon (1.2-6.5 µm), the four-plate polarizer is an effective, low-cost, high-power compatible tool providing sufficient contrast for signal and idler beam separation of the broadband mid-infrared Type II optical parametric sources. The proposed polarizers can function as an attenuator assembly without any wave plate.
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| http://dx.doi.org/10.1364/AO.411408 | DOI Listing |
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