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Fiber optic test kit - 5890-FC
Insertion loss test set for multimode and single mode fiber
850/1300nm...
850/1300nm...
Fiber optic test kit - 5890-FC
Insertion loss test set for multimode and single mode fiber
850/1300nm loss measurements
1310/1550nm loss measurements
Connector for FC, SC or ST
Rugged package design
Easy to use portable package
Economically priced
850/1300nm loss measurements
1310/1550nm loss measurements
Connector for FC, SC or ST
Rugged package design
Easy to use portable package
Economically priced
UV-resistant optical fiber - ø 300 - 600 µm
Ultraviolet radiation below 300 nm degrades transmission in silica fibers, resulting in solarization (increased light absorption in the UV fiber that can invalidate data). For applications <300 nm, we recommend solarization-resistant assemblies.
Our...
Our...
UV-resistant optical fiber - ø 300 - 600 µm
Ultraviolet radiation below 300 nm degrades transmission in silica fibers, resulting in solarization (increased light absorption in the UV fiber that can invalidate data). For applications <300 nm, we recommend solarization-resistant assemblies.
Our Premium-grade Solarization-resistant Assemblies are durable, high-quality assemblies that consistently deliver uniform results with minimal signal variance. With every Premium-grade order, you receive a Quality Control Report that includes both the serial number and transmission curve of the assembly.
Premium-grade Solarization-resistant Assemblies have a silicone-coated steel monocoil jacketing with a Nomex braid for superior strain relief and protection. Assemblies are terminated with precision SMA 905 Connectors with extra-long ferrules for easy manipulation.
Premium-grade Assemblies connect easily to spectrometers, light sources and optical fiber accessories and are available in standard lengths or can be ordered in custom lengths.
Our Premium-grade Solarization-resistant Assemblies are durable, high-quality assemblies that consistently deliver uniform results with minimal signal variance. With every Premium-grade order, you receive a Quality Control Report that includes both the serial number and transmission curve of the assembly.
Premium-grade Solarization-resistant Assemblies have a silicone-coated steel monocoil jacketing with a Nomex braid for superior strain relief and protection. Assemblies are terminated with precision SMA 905 Connectors with extra-long ferrules for easy manipulation.
Premium-grade Assemblies connect easily to spectrometers, light sources and optical fiber accessories and are available in standard lengths or can be ordered in custom lengths.
UV-resistant optical fiber - 230 - 450 µm | Xtreme
High Transparency and Durability
Xtreme Solarization-resistant Optical Fiber and Probe Assemblies for spectroscopy are manufactured using a proprietary process that provides enhanced UV transmission (signal will transmit to 180 nm) and remarkable resistance...
Xtreme Solarization-resistant Optical Fiber and Probe Assemblies for spectroscopy are manufactured using a proprietary process that provides enhanced UV transmission (signal will transmit to 180 nm) and remarkable resistance...
UV-resistant optical fiber - 230 - 450 µm | Xtreme
High Transparency and Durability
Xtreme Solarization-resistant Optical Fiber and Probe Assemblies for spectroscopy are manufactured using a proprietary process that provides enhanced UV transmission (signal will transmit to 180 nm) and remarkable resistance to UV degradation, making it ideal for deep-UV applications (
Solarization in Typical Fibers
Solarization in Typical Fibers UV radiation below 300 nm degrades transmission in standard silica fibers, resulting in solarization (increased light absorption in the UV fiber that can invalidate data). For applications below 300 nm, we recommend our Premium-grade XSR Xtreme Solarization-resistant Fiber and Probe Assemblies, which are available for immediate delivery in standard lengths. Shorter lengths for solarization-resistant assemblies maximize UV throughput. Custom lengths are available; however, we recommend speaking with our Applications Scientists before ordering.
Xtreme Solarization-resistant Optical Fiber and Probe Assemblies for spectroscopy are manufactured using a proprietary process that provides enhanced UV transmission (signal will transmit to 180 nm) and remarkable resistance to UV degradation, making it ideal for deep-UV applications (
Solarization in Typical Fibers
Solarization in Typical Fibers UV radiation below 300 nm degrades transmission in standard silica fibers, resulting in solarization (increased light absorption in the UV fiber that can invalidate data). For applications below 300 nm, we recommend our Premium-grade XSR Xtreme Solarization-resistant Fiber and Probe Assemblies, which are available for immediate delivery in standard lengths. Shorter lengths for solarization-resistant assemblies maximize UV throughput. Custom lengths are available; however, we recommend speaking with our Applications Scientists before ordering.
Output coupling mirror - max. ø 44.45 mm
The output coupler usually has reflectance in the range 40% to 70%. In order to optimize power and spatial profile of the laser beam, the output coupler and end mirror have...
Output coupling mirror - max. ø 44.45 mm
The output coupler usually has reflectance in the range 40% to 70%. In order to optimize power and spatial profile of the laser beam, the output coupler and end mirror have optical surfaces with well-defined radii of curvature. The output coupler is typically composed of ZnSe in order to minimize absorption and thermal distortion while transmitting a high-power laser beam. The end mirror usually has reflectance 99.5% which means that the transmitted laser beam has low power. However, because absorption in the coating is higher than in the output coupler, substrate materials, such as Germanium or Gallium Arsenide, with high thermal conductivity are used in most lasers.