Qioptiq Datasheets for Optical Lenses
Optical lenses are transparent components made from optical-quality materials and curved to converge or diverge transmitted rays from an object. These rays then form a real or virtual image of the object. This area includes micro lenses.
Optical Lenses: Learn more
| Product Name | Notes |
|---|---|
| An infinite number of lenses in just one lens: ML-20-35 is a shape-changing polymer lens. The spherical curvature of this lens with an aperture of 20 mm can be changed... | |
| Aspheric lenses provide simple, single-element solutions for laser collimation. Aspheres can eliminate spherical aberrations and improve focusing and collimating accuracy. Typical applications are fiber coupling, laser diodes, optical data storage,... | |
| Compact optics and short setting time: EL-10-30 allows for that due to its electrically tunable focal range. Within 10 ms, the radius of this plano-convex lens can be changed by... | |
| All relevant data like materialis, radii and center thickness of our plano-convex lenses you can find in the data base of our Qioptiq software WinLens Ϯ: www.winlens.de. Surfaces uncoated Tolerances:... | |
| Crown glass is primarily for use in illumination systems Positive meniscus lenses Mounts fit to Microbench Surfaces uncoated | |
| Crown glass is primarily for use in illumination systems Positive meniscus lenses Surfaces uncoated For customized optics and higher volumes please contact our sales team for your individual quotation. | |
| Fused silica is suitable for DUV-applications Positive meniscus lenses Surfaces uncoated | |
| Lens mounts fit to Microbench m or Nanobench n Also available in UV-grade fused silica Surfaces uncoated Tolerances: Focal length f': ±2 %, Image distance s': ±2 % Our singlets... | |
| Lens mounts fit to Microbench m or Nanobench n Precision designed for 1:1 imaging Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2... | |
| Lens mounts fit to Microbench m or Nanobench n Surfaces uncoated Tolerances: Focal length f': ±2 %, Image distance s': ±2 % Our singlets are also available with the following... | |
| Lens mounts fit to Microbench m Precision designed for 1:1 imaging Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration/wavefront distortion Tight focal length tolerance Achromats in Nanobench n and Microbench m mounts fitting directly to these LINOS systems Cemented doublets Broadband anti-reflection... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration/wavefront distortion Tight focal length tolerance Cemented doublets Broadband anti-reflection coating ARB2 VIS Damage thresholds > 2 kW/cm2 cw (488/514 nm) Damage thresholds... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration Minimal wavefront distortion Tight focal length tolerance Broadband anti-reflection coated Achromats in Nanobench n and Microbench m mounts fitting directly to these LINOS... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration Minimal wavefront distortion Tight focal length tolerance Broadband anti-reflection coated Cemented doublets Broadband anti-reflection coating ARB2 NIR Damage thresholds > 2 kW/cm2... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration Minimal wavefront distortion Tight focal length tolerance Broadband anti-reflection coated Cemented doublets Broadband anti-reflection coating ARB2 VIS Damage thresholds > 2 kW/cm2... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration Minimal wavefront distortion Tight focal length tolerance Broadband anti-reflection coated Cemented doublets Unmounted Broadband anti-reflection coating ARB2 NIR Damage thresholds > 2 kW/cm... | |
| Minimal longitudinal chromatic aberration Minimal spherical aberration Minimal wavefront distortion Tight focal length tolerance Broadband anti-reflection coated Cemented doublets Unmounted Broadband anti-reflection coating ARB2 VIS Damage thresholds > 2 kW/cm... | |
| Mounted lenses fit to Microbench m or Nanobench n Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also... | |
| Mounted lenses fit to Microbench m or Nanobench n Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also... | |
| Mounted or unmounted In mount fitting to Microbench m Surfaces uncoated Tolerances: Focal length f' : ± 5 %, Image distance s' : ± 5 % Our singlets are also... | |
| Mounts fit to Microbench m Surfaces uncoated Tolerances: Focal length f' : ± 5 %, Image distance s' : ± 5 % | |
| Mounts fit to Microbench m Surfaces uncoated Tolerances: Focal length f': ± 5 %, Image distance s': ± 5 % | |
| Plano-convex lenses with minimal spherical aberration Very high aperture ratios Primarily for use in illumination systems Fabricated from crown glass Surfaces uncoated Special coatings for Aspheric Condenser Lenses are available... | |
| Plano-convex lenses with minimal spherical aberration Very high aperture ratios Primarily for use in illumination systems Mounts fit to Microbench m Fabricated from crown glass Surfaces uncoated Special coatings for... | |
| Precision designed for 1:1 imaging Lens mounts fit to Microbench m or Nanobench n Surfaces uncoated Our singlets are also available with the following coatings: VIS range (ARB2: R < | |
| Precision designed for 1:1 imaging Surfaces uncoated Centering accuracy: better than 4' Our singlets are also available with the following coatings: VIS range (ARB2: R < 0.5 % per surface,... | |
| Precision designed for 1:1 imaging Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % N-BK7 centering accuracy better than 3' Our singlets... | |
| Precision designed for 1:1 imaging Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also available with the following... | |
| Precision lenses for use at infinite object distance Spherical (aperture-dependent) aberration minimized | |
| Precision lenses for use at infinite object distance Spherical (aperture-dependent) aberration minimized N-BK7 lenses with ARB2 coating Broadband anti-reflection coating ARB2 for the visible spectral range (R < 0.5 %... | |
| Precision lenses for use at infinite object distance Spherical (aperture-dependent) aberration minimized N-BK7 lenses with ARB2 coating Lens mounts fit to Microbench or Nanobench system Broadband anti-reflection coating ARB2 for... | |
| Suitable for DUV applications Two equal radii of curvature uncoated Mounted lenses fit to Microbench Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± | |
| Suitable for DUV-applications Two equal radii of curvature Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also available... | |
| Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also available with the following coatings: VIS range (ARB2: R... | |
| Surfaces uncoated Tolerances: Focal length f' : ± 5 %, Image distance s' : ± 5 % Our singlets are also available with the following coatings: VIS range (ARB2: R... | |
| Surfaces uncoated Tolerances: Focal length f': ±2 %, Image distance s': ±2 % Our singlets are also available with the following coatings: VIS range (ARB2: R < 0.5 % per... | |
| Two equal radii of curvature Surfaces uncoated Tolerances: Focal length f' : ± 2 %, Image distance s' : ± 2 % Our singlets are also available with the following... | |
| Unmounted Surfaces uncoated Tolerances: Focal length f' : ± 5 %, Image distance s' : ± 5 % Our singlets are also available with the following coatings: VIS range (ARB2:... |