Cylindrical Plano-convex Lens (BK7) 20×100mm 300mm Focal Length 750 - 1550nm
CLB-20100-300PIR2
Cylindrical plano convex lens has a convex curvature in the vertical direction and has no curvature in the horizontal direction. They are often used to condense a laser beam into a thin line.
◦Plano Convex Cylindrical lenses are available in BK7 for from visible range to infrared wavelength range.
◦BK7 lenses are also available with three types of anti-reflection coatings, visible wavelength range, in the near-infrared range and in the infrared range.
◦Cylindrical lenses are often used in an optical system to change the shape and aspect ratio of the illumination light beam.
◦BK7 lenses are also available with three types of anti-reflection coatings, visible wavelength range, in the near-infrared range and in the infrared range.
◦Cylindrical lenses are often used in an optical system to change the shape and aspect ratio of the illumination light beam.
Name | Cylindrical Plano-convex Lens (BK7) 20×100mm 300mm Focal Length 750 - 1550nm |
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Weight | 0.0210kgs |
Standard Coatings Available | No |
Guide |
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Remark | - |
Attention |
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A x B | 20mm x 100mm |
Focal length | 300mm |
Material | BK7 |
Design Wavelength | 546.1nm |
Refractive index n<sub>e</sub> | 1.519 |
Coating | Broadband Multilayer antireflection coating (750 - 1550nm) |
Transmmittance | > Average 98.5% |
Laser Damage Threshold | 4J/cm2 (Laser pulse width ; 10ns , Repetition frequency ; 20Hz) |
Clear aperture | Circle or ellipse inscribed in a rectangular of 90% of the dimension |
Surface Quality (Scratch-Dig) | 20-10 |
Wavelength range of Antireflection Coating | 750 - 1550nm |
A×B | 20×100mm |
Focal length f | 300mm |
Edge thickness te | 3.7mm |
Center thickness tc | 4mm |
Back focal length fb | 297.4mm |
Radius of curvature r | 155.7mm |
Out of stock
SKU
CLB-20100-300PIR2
€349.30
Cylindrical plano convex lens has a convex curvature in the vertical direction and has no curvature in the horizontal direction. They are often used to condense a laser beam into a thin line.