The following volume discount schedule is automatically applied when ordering bare optical fiber: 6 - 50 m with 15 %, 51- 1,000 m with 22 %, > 1,000 m with 25 %

High quality fiber Bragg gratings (FBGs) and long period gratings (LPGs) can be constructed using Newport’s Photosensitive Fibers by exposing these optical fibers to periodic patterns of UV light. Such fiber gratings form the basis of fiber optic devices such as wavelength-selective filters, narrow-band mirrors, WDMs, add-drop multiplexers, and sensors. Also, FPGs are used to form a laser cavity in a fiber laser, an external cavity laser, or a wavelength stabilized laser. Newport offers intrinsically photosensitive fibers and cladding mode suppression fibers. The intrinsic photosensitivity of these fibers allows for short UV exposures times without the hassle of hydrogen loading. The cladding more suppression fibers are designed to minimize coupling between the core mode and the cladding modes, virtually eliminating cladding mode loss peaks in the transmission spectrum. The numerical aperture and mode field diameter of all the fibers except for PSDC-1100-8/20 are matched to those of standard single-mode fiber, such as SMF-28, so that fusion splices result in losses of ~ 0.05 dB. The F-PSDC-1100-8/200 double clad ...

The following volume discount schedule is automatically applied when ordering bare optical fiber: 6 - 50 m with 15 %, 51- 1,000 m with 22 %, > 1,000 m with 25 %

High quality fiber Bragg gratings (FBGs) and long period gratings (LPGs) can be constructed using Newport’s Photosensitive Fibers by exposing these optical fibers to periodic patterns of UV light. Such fiber gratings form the basis of fiber optic devices such as wavelength-selective filters, narrow-band mirrors, WDMs, add-drop multiplexers, and sensors. Also, FPGs are used to form a laser cavity in a fiber laser, an external cavity laser, or a wavelength stabilized laser. Newport offers intrinsically photosensitive fibers and cladding mode suppression fibers. The intrinsic photosensitivity of these fibers allows for short UV exposures times without the hassle of hydrogen loading. The cladding more suppression fibers are designed to minimize coupling between the core mode and the cladding modes, virtually eliminating cladding mode loss peaks in the transmission spectrum. The numerical aperture and mode field diameter of all the fibers except for PSDC-1100-8/20 are matched to those of standard single-mode fiber, such as SMF-28, so that fusion splices result in losses of ~ 0.05 dB. The F-PSDC-1100-8/200 double clad fiber is specifically optimized to work together with F-YDC-1100-8/230 fiber laser fibers (Rare Earth Doped Fibers-Ytterbium, Erbium, Neodymium).