Aspheric Condenser Lens 32.5mm Diameter 23.5mm Focal Length
AGL-32.5-23.5P
Aspheric condenser lens is a single lens for collection and condensing, which the radius of curvature of one side is changed according to the height from the optical axis to minimize spherical aberration. The other side is plano or convex.
◦These lenses can condense light at a short focal length superior to what can be achieved with spherical lenses.
◦Since these lenses are molded polished from B270-Superwhite, complex shapes that cannot be polished can be easily manufactured.
◦These lenses are designed for the use at infinite conjugate ratios and focal lengths are designed at 587.6nm (yellow helium line [d]).
◦Since these lenses are molded polished from B270-Superwhite, complex shapes that cannot be polished can be easily manufactured.
◦These lenses are designed for the use at infinite conjugate ratios and focal lengths are designed at 587.6nm (yellow helium line [d]).
Name | Aspheric Condenser Lens 32.5mm Diameter 23.5mm Focal Length |
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Weight | 0.0400lbs |
Standard Coatings Available | No |
Guide |
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Remark | - |
Attention |
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Image Label | Aspheric Condenser Lens 32.5mm Diameter 23.5mm Focal Length |
Diameter φD | 32.5mm |
Focal length | 23.5mm |
Material | B270 |
Material | B270 |
Shape Type | Plano-convex aspheric / Polished surface on both sides |
Coating | Uncoated |
Maximum operating temperature | 170℃ |
Surface Quality (Scratch-Dig) | 80-50 |
Clear aperture | 80% of the diameter |
Diameter φD | φ32.5mm |
Focal length f | 23.5mm |
Back focal length fb <sup>*2</sup> | 15.1mm |
Numerical aparture (NA) <sup>*</sup>1 (D/2×0.8/f) | 0.55 |
Edge thickness te | 2.5mm |
Center thickness tc | 14mm |
Rear surface | Convex |
Availability | Please contact |
*1 NA is calculated using 80% of the outer diameter of the lens. |
In stock
SKU
AGL-32.5-23.5P
SGD 42.70
Aspheric condenser lens is a single lens for collection and condensing, which the radius of curvature of one side is changed according to the height from the optical axis to minimize spherical aberration. The other side is plano or convex.