Request InfoOxford Applied Research Ltd.A valved organic evaporator with 50-cc capacity has been released by Oxford Applied Research. Its design incorporates a patented in-line valve, eliminates the thermal inertia of conventional unvalved evaporators and conserves feedstock during bakeout. The evaporant flux can be changed in seconds over a wide dynamic range with a beam profile tailored to the user’s requirements from pencil beam to large-area showerhead configurations. The K-cell section is loaded externally with liquid/solid feedstock without disturbing the valve and beam-outlet head, and the evaporator can be motorized for...See full productRelated content from Photonics MediaWEBINARSPhotonics.com 3/7/2019In Vivo Medical Laser Procedures: An OverviewThis webinar, presented by OFS, will provide an overview of current in vivo medical procedures performed using lasers and optical fibers. The presentation will begin with a brief history of...Photonics.com 1/18/2018Fiberguide RARe Motheye Fiber: Random Anti-Reflective (RARe) Nanostructures on Optical Fibers as Replacement for AR CoatingsAnti-reflective (AR) coatings are now entering their second century and have remained virtually unchanged throughout their life. As power level and wavelength range requirements continue to increase,...Photonics.com 1/9/2023Innovations in Ultrashort-Pulse and RF-Excited CO2 Lasers Expand Materials Processing ApplicationsIndustrial laser materials processing is constantly evolving. Industries as varied as pharmaceutical, consumer electronics, automotive, aerospace, and textiles, among others, have benefited from new...Photonics.com 10/27/2021Fiber Optic Solutions for Medical DevicesSteve Allen provides a brief overview and examples of procedures that continue to push adoption and proliferation of optical fiber-based medical devices. From cosmetic surgery to cutting-edge sensing...