|
|
Fiber Optic 2D Arrays |
|
|
|
• Meets or exceeds Telcordia GR-1221-CORE-Reliability Qualification Requirements for Passive Devices. • Designed and manufactured to customer application and/or specification. Designs utilize either single mode or multimode fibers. Distal ends can be provided cleaved, polished, or terminated with a wide variety of standard connectors or customized endfittings. • Exact positioning of fibers. • Center-to-center pitch from 150¥ì to 5mm. • Strain relief packaging. |
|
|
 |
|
Fiber Optic Assembly |
|
|
|
• Temperatures from -269¡ÆC to +750¡ÆC. (Using gold coated fibers.) • Vacuum compatible tested to 10-9 Torr. • Chemical resistant: acids, bases, and organic solvents. • Radiation resistant: gamma, e-beam, fast neutrons, and x-ray resistant. • Operating wavelengths from 180nm to 2400nm. • Overall lengths up to 100 meters. • Active area geometries include circular, arc, segmented, rectangle, concentric, square, linear, hexagonal, or whatever the application calls for. • Bifurcated, trifurcated to complex multiple leg assemblies. • Cross-section, or aperture, of each end may be of a different geometry, i.e. line-to-spot, spot-to-spot, concentric-to-(2) spots, or whatever the application calls for. • Different size and/or different fibers (e.g. silica/silica and borosilicate) may be combined into the same assembly. • Fiber arrangement may be random, uniformly distributed, scrambled, coherently aligned, mapped for specific input/output distribution, precision spaced. • Wide assortment of end terminations and furcation joints. |
|
|
 |
|
Fiber Optic Vacuum Feedthrough |
|
|
|
• Male SMA 905 connectors both input and output • UV to VIS and VIS to NIR applications • All fused Silica fiber • Surgical grade stainless steel mounts • Maximum operating temperature 125¡É (bulkhead temp) • 200um, 400um, and 600um fiber core diameters • Custom configurations available : multiport, fibers sizes (9um to 1000um), Numerical apertures(0.12, 0.26), connectors(FC,ST,APC). |
|
|
 |
|
Fused Silica Capillary Tubing |
|
|
|
• Standard Polyimide Coating • Synthetic Fused Silica • 100% Proof Tested for Strength • Operation to 350¨¬C |
|
|
 |
|
High power Laser Delivery |
|
|
|
• Laser polished fiber ends. • Highly conductive copper ferrule in nose connector. • Anodized aluminum heat sink. • Custom design HP-SMA (High Power) connector. • Cantilevered fiber end. • Small fiber diameters incorporate a pure fused silica sleeve at tip. • Standard core diameters of 100¥ì, 200¥ì, 300¥ì, 400¥ì, 600¥ì, 1000¥ì, 1500¥ì. |
|
|
 |
|
High Temperature Coated Fiber |
|
|
|
• Extremely high tensile strength. • High operating temperature. • Cryogenic operating temperature. • Stress and chemical corrosion resistant. • Radio opaque. • Aluminum buffer is hermetic. • Solderable. • Sterilizable using ETO, steam, e-beam, or gamma radiation. • No outgassing or oxidation. |
|
|
 |
|
Silica Core/Clad UV-VIS |
|
|
|
• All buffers/coatings certified by NAMSA under USP Class VI for Biocompatibility. • Lowest loss for Ultraviolet (UV) through Visible (VIS) applications. • Specialty coatings available (see Gold and Aluminum Data Sheets). • Maximum laser damage resistance for holmium (2100nm) and Erbium (1500nm) laser delivery. • Large core-to-clad ratios available. • Core diameters available up to 1500¥ì (Nylon and Tefzel? buffers). • May be sterilized by ETO, steam, e-beam and gamma radiation. Polyimide buffer may be autoclaved (heat resistant). • Radiation resistant. • All dielectric, non-magnetic construction. • Polyimide buffer resists most organics, solvents, and acid. • Thin wall polyimide buffer (12¥ì to 15¥ì). |
|
|
 |
|
Silica Core/Clad VIS-IR |
|
|
|
• All buffers/coatings certified by NAMSA under USP Class VI for Biocompatibility. • Lowest loss for Visible (VIS) through Infrared (IR) applications. • Specialty coatings available (see Gold and Aluminum Data Sheets). • Maximum laser damage resistance for Pulsed Dye (595nm), Excimer (193nm), HeNe (633)laser delivery. • Large core-to-clad ratios available. • Core diameters available up to 1500¥ì (Nylon and Tefzel? buffers). • May be sterilized by ETO, steam, e-beam and gamma radiation. Polyimide buffer may be autoclaved (heat resistant). • Radiation resistant. • All dielectric, non-magnetic construction. • Polyimide buffer resists most organics, solvents, and acid. • Thin wall polyimide buffer (12¥ì to 15¥ì). |
|
|
 |
|
Silica Core/Hard Clad UV-VIS |
|
|
|
• Hard Fluor-polymer coating. • Superior concentricity and core-to-clad ratio. • Large numerical aperture (N.A.) fibers. • Strong bonding of the hard polymer to silica. • Broad operating wavelength range. • Sterilizeable by ETO or gamma. • Hard polymer cladding is removable with acetone. • All dielectric, non-magnetic construction. • Radiation resistant. |
|
|
 |
|
Silica Core/Hard Clad VIS-NIR |
|
|
|
• Hard Fluor-polymer coating. • Superior concentricity and core-to-clad ratio. • Large numerical aperture(N.A.) fibers. • Strong bonding of the hard polymer to silica. • Broad operating wavelength range. • Sterilizeable by ETO or gamma. • Hard polymer cladding is removable with acetone. • All dielectric, non-magnetic construction. • Radiation resistant. |
|
|
 |
|
Single Fiber Assembly |
|
|
|
* Termination : SMA 905 (ST and FC available as special order) * Length : 2m (Custom lengths available upon request) * Core/clad Material : Fused silica * Numerical Aperture : 0.22 (0.39 hard clad fiber available as special order) |
|
|
 |
|
|
 |
|
|