Singlet lens is a lens consisting of a pure single element, which can be considered as the fundamental element of developing optical systems. Based on optical engineersâ?? design, multiple singlet lenses might be utilized within an optical system with other optics.
As the basic optical element, singlet lenses are commonly used in engineersâ?? design, and further assembly works for a variety of applications such as imaging collimating. At hyperion optics, our manufacturing capability covers plano concave/convex, bi-concave, bi-convex, positive and negative meniscus, ranged from many variations of optical glass and fused silica and even crystal. With our reliable coating technique, ar or v-coatings can be applied to reach expectation. Special treatment i.E. Edge blackening / special packaging / labeling also available upon request.
, commercial grade, factory standard, precision grade
Diameter tolerance(mm), 0.05, 0.03, 0.0125
Center thickness(mm), 0.01, 0.03, 0.025
Radius (%), 1%, 0.5%, 0.3%
Focal length tolerance (%), 3%, 1%, 0.5%
Cosmetic(mil-c-13830a), 100-80, 40-20, 10-5
Figure tolerance in î»(pow/irreg), 3 - 1, 2 - 1/4, 1 - 1/10
Centration (arc min), 6
Achromatic Lenses are used to minimize or eliminate chromatic aberration. The achromatic design also helps minimize spherical aberrations. Achromatic Lenses are ideal for a range of applications, including fluorescence microscopy, image relay, inspection, or spectroscopy. An Achromatic Lens, which is often designed by either cementing two elements together or mounting the two elements in a housing, creates smaller spot sizes than comparable singlet lenses. Specification Material Crow glass & Flint glass Diameter 6.0mm-200mm Diameter Tolerance ±0.1mm Thickness 5mm-50mm Thickness Tolerance ±0.05mm Surface Quality 60/40 40/20 Surface Flatness lambda~lambda/8 Bevel 0.25mm*45° Centration < 3arc min Coating as the customer's requirement
PARAMETER: Achromatic Lenses are used to minimize or eliminate chromatic aberration. The achromatic design also helps minimize spherical aberrations. Achromatic Lenses are ideal for a range of applications, including fluorescence microscopy, image relay, inspection, or spectroscopy. An Achromatic Lens, which is often designed by either cementing two elements together or mounting the two elements in a housing, creates smaller spot sizes than comparable singlet lenses. Specification Material,Crow glass & Flint glass Diameter,6.0mm-200mm Diameter Tolerance,±0.1mm Thickness,5mm-50mm Thickness Tolerance,±0.05mm Surface Quality,60/40 40/20 Surface Flatness,lambda~lambda/8 Bevel,0.25mm*45° Centration, < 3arc min Coating, as the customer's requirement
Achromat Lens Achromatic doublet lenses have significantly better optical performance than singlet lenses in visible imaging and laser beam manipulation applications. Achromat Lenses are consist of two elements, usually of a positive low-index crown glass cemented to a negative high-index flint glass that have been corrected for chromatic aberration with respect to two or more selected wavelengths. We provide achromatic lenses consisting of two elements. These lenses have considerably reduced not only chromatic aberration bust also spherical aberration and coma aberration. These are designed with respect to three wavelength 480.0nm, 546.1nm and 643.8nm. Capacity: Material: Optical glass. Diameter: 0.5 to 350 mm Diameter Tolerance: +0/-0.02 mm Thickness Tolerance: 0.01 mm Surface Quality: 10-5 Surface Figure: �/10 Centration: 1 minute or 30 Se ond Coating: Uncoated, AR and HR Specification: Material BK7 grade A optical glass Design Wavelength 480.0nm,546.1nm,643.8 nm Diameter Tolerance +0.0, -0.15 mm Thickness Tolerance �0.2 mm Paraxial Focal Length �2% @546.1 nm Centration 85% Surface Irregularity λ/4@632.8 nm Surface Quality 60-40 scratch and dig Protective Bevel 0.25 mm x 45� Positive Achromatic Lens Standard Products: Part No. f (mm) Ф (mm) R1 (mm) R2=R3 (mm) R4 (mm) tc1 (mm) t c2 (mm) f b (mm) Lens A Lens B TPA101 10.0 6.0 6.546 -4.055 -23.23 3.6 0.8 7.54 SK9 SF15 TPA102 20.0 10.0 12.32 -0.902 -25.23 3.8 1.0 17.625 BK7 SF5 TPA103 30.0 12.7 18.535 -13.49 -37.84 4.0 1.3 27.36 BK7 SF5 TPA104 40.0 12.7 25.23 -17.539 -48.75 3.4 1.3 37.778 BK7 SF5 TPA105 50.0 18.0 31.69 -22.0 -60.57 4.8 1.5 46.987 BK7 SF5 Note: Other size, material and coating are available upon request. Negative Achromatic Lens Standard Products: Part No. f (mm) Ф (mm) R1 (mm) R2=R3 (mm) R4 (mm) tc1 (mm) t c2 (mm) f b (mm) Lens A Lens B TNA101 -25 12.7 -15.6 13.09 44.16 3.0 2.67 -27.5 BK7 F2 TNA102 -40 12.7 -24.45 17.97 66.6 3.0 2.34 -42.5 BK7 F2 Note: Other size, material and coating are available upon request.
Achromatic cylindrical lenses are ideal for eliminating spherical and chromatic aberration at the image plane, for example using monochromatic light source, achromatic cylindrical lenses can form a 50-90% smaller spot compared to singlet. For most severe laser or imaging applications which involve cylindrical components, such as anamorphic projection, anamorphic photography, and achromatic cylindrical lenses are introduced. Hyperion optics can manufacture based on custom design doublet or triplet achromatic cylindrical cemented lenses by using centering alignment device with uv curing unit to process precision bonding and testing at the same time. Every singlet is fully inspected before bonding. Achromaticcylindrical lenses, commercial grade, factory standard, precision grade Size tolerance length/width(mm), +0/-0.30, +0/-0.25, +0/-0.25 Diameter (mm), +0/-0.15, +0/-0.10, ±0.025 Wedge (along axis), 5 mrad, 3 mrad, 1 mrad Focal length tolerance (%), ±2%, ±2%, ±1% Cosmetic(mil-c-13830a), 80-50, 60-40, 10-5 Irregularity (lambda , 632.8nm), 1 l, 1/2 l, 1/10 l Centration (arc min)
