Novel Thin-Film Coating Design Separates and Combines Polarization of Red/Blue/Green Wavelengths in One Optic
Superior Technology and Design Separates Polarization of Three Wavelengths Simultaneously
Bedford, NH - April 07, 2021 - With a newly designed thin-film polarizing coating, LASER COMPONENTS offers a single optical component that simultaneously separates the polarizations of three wavelengths. It not only separates the three different wavelengths but can also be used to distinguish between lasers of the same wavelength.
Manufactured and designed according to customer specifications, this optic combines linearly polarized laser beams from several sources of differing wavelengths and separates the unpolarized beams into polarized light simultaneously.
The trichroid thin-film polarizer was designed for an angle of incidence of 45 degrees and exhibits excellent reflection properties for red (640 nm), green (520 nm) and blue (450 nm) light for s-polarization, while p-polarized energy is transmitted with high efficiency. "This three-in-one coating design requires compact and extremely accurate coating layers with very demanding physical thickness tolerances, states Huyen Vu, sales director. Our state-of-the-art Ion Beam Sputtering (IBS) coating technology enables exactly that". If you are in the market for a high performance, high quality thin-film polarizer that provides demanding specifications and optimum technology, look no further than LASER COMPONENTS.
Featured Product
FLIR Si1-LD - Industrial Acoustic Imaging Camera for Compressed Air Leak Detection
The FLIR Si1-LD is an easy-to-use acoustic imaging camera for locating and quantifying pressurized leaks in compressed air systems. This lightweight, one-handed camera is designed to help maintenance, manufacturing, and engineering professionals identify air leaks faster than with traditional methods. Built with a carefully constructed array of MEMS microphones for high sensitivity, the Si1-LD produces a precise acoustic image that visually displays ultrasonic information, even in loud, industrial environments. The acoustic image is overlaid in real time on a digital image, allowing you to accurately pinpoint the source of the sound, with onboard analytics which quantify the losses being incurred. The Si1-LD features a plugin that enables you to import acoustic images to FLIR Thermal Studio suite for offline editing, analysis, and advanced report creation. Field analysis and reporting can also be done using the FLIR Acoustic Camera Viewer cloud service. Transferring of images can be managed via memory stick or USB data cable. Through a regular maintenance routine, the FLIR Si1-LD can help facilities reduce their environmental impact and save money on utility bills.
