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PI Physik Instrumente - Fast Steering LB LW 11/24

Perfect Mirrors Extend Hollow-Core Fiber Applications

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Low-loss waveguides based on omnidirectional mirrors can transport light of almost any wavelength. One potential use is fiber optic beam delivery of CO2 laser light.

Gregor Dellemann, Dr. Torkel D. Engeness, Dr. Maksim Skorobogatiy and Uri Kolodny

Photonic bandgap fibers have been the subject of active research for several years. One result reaching commercialization is omniguide fiber, a low-loss waveguide that can transport light of almost any wavelength. The fundamental breakthrough enabling development of these fibers is the omnidirectional mirror, which combines the advantages of metallic and dielectric mirrors. Metallic mirrors reflect light for a wide range of wavelengths and for any angle of incidence, but always absorb some of the incident light. Dielectric mirrors consist of one or more interfaces of high- and low-index...Read full article

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    Published: June 2003
    a low-loss waveguideCommunicationsFeaturesindustrialMicroscopyomniguide fiberphotonic bandgap fiberstransport light of almost any wavelength

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