Full prescription data, 2D and 3D drawings, and
coating curves are available on our website.
Diffractive Surface
Diameter
CT
P”
0.125
0.50
Aspheric
EFL
BFL
• Color-Corrected Plastic Aspheres
• Diffractive Surface Minimizes
Chromatic Aberration
• Low-Cost, Molded Design
TECHSPEC® Plastic Hybrid Aspheric Lenses are
molded aspheric lenses with diffraction-limited designs
that eliminate chromatic aberrations caused
by broadband light sources. These hybrid aspheric
lenses are ideal for imaging or ophthalmic applications,
or for use with tunable lasers or broadband or
multispectral illumination sources. The aspheric lens
eliminates spherical aberration, while the diffractive
surface features a negative optical dispersion to yield
excellent color correction.
Diffraction Efficiency
Diffraction Efficiency (%)
100
90
80
70
60
50
40
30
20
10
0
450 500 550 600 650 700
Wavelength (nm)
Monochromatic Spot Size Comparison for
25mm Diameter f/1.2 Optical Components
Hybrid Asphere #65-993
Achromatic Doublet #45-211
Aspherized Achromat #49-662
Diffraction Limit
0.486 0.506 0.526 0.546 0.566 0.586 0.606 0.626 0.646
Wavelength (μm)
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beam shaping
Substrate: Zeonex E48R
Surface Quality: 60-40
Design Wavelength (nm): 587,6
Diameter Tolerance (mm): +0,00/-0,10
Center Thickness Tolerance (mm): ±0,10
Clear Aperture (mm): Diameter - 2
Operating Temperature (˚C): -30 to +70
Prescription Information: See our website
Coating (as noted): Ravg ≤ 0,75% @ 425 - 675 nm
100
10
1
0.1
RMS Spot Diameter (μm)
0.01
TECHSPEC® Plastic Hybrid Aspheric Lenses
Diameter
EFL
Numerical
BFL
(mm)
(mm)
Aperture
(mm)
CT
(mm)
Stock No.
Uncoated
Price – Uncoated Stock No.
VIS Coated
Price – VIS Coated
1-5 6-25 26+ 1-5 6-25 26+
12,0 9,0 0,67 5,57 5,60 #65-986 €55,00 €44,15
Call
#65-996 €66,10 €52,83
Call
12,0 12,0 0,50 9,50 4,30 #65-987 €55,00 €44,15 #65-997 €66,10 €52,83
12,0 15,0 0,40 12,95 3,70 #65-988 €55,00 €44,15 #65-998 €66,10 €52,83
25,0 20,0 0,63 13,89 10,00 #65-991 €74,79 €60,07 #66-001 €85,40 €68,76
25,0 30,0 0,42 25,82 7,30 #65-993 €74,79 €60,07 #66-003 €85,40 €68,76
HOYA Molded Glass Aspheric Lenses
HOYA Molded Glass Aspheric Lenses are used in applications that require lenses with small sizes and high transmission
that correct for spherical aberration. These aspheric lenses are manufactured through a patented molding
process that produces precision aspheric surfaces to minimize wavefront error. Their small diameters and thicknesses
allow for these molded aspheric lenses to be integrated into measurement systems, biomedical instrumentation,
or other optical tools. HOYA Molded Glass Aspheric Lenses are available in multiple glass types that offer
higher refractive indices and lower dispersion than other molded glass aspheric lens offerings.
Design Wavelength (nm): 780
Diameter Tolerance (mm): +0,00/-0,02
Center Thickness Tolerance (mm): ±0,02
Transmitted Wavefront, μm RMS: <0,04
Coating Specification: Ravg<1% @ 680 - 880 nm (typical)
HOYA Molded Glass Aspheric Lenses
Diameter
Effective
(mm)
Focal Length
(mm)
Numerical
Aperture WD (mm) CT (mm) Glass Type Stock No.
Price
1-10 11-25 26+
4,40 3,00 0,50 1,20 1,95 M-BaCD5N #13-589 €81,54 €64,17
Call
6,37 8,00 0,30 5,52 4,00 M-BaCD5N #13-583 €76,72 €60,31
6,38 4,20 0,50 2,00 2,56 M-LaF81 #13-587 €81,54 €64,17
6,38 4,50 0,50 2,16 2,80 M-LaF81 #13-588 €81,54 €64,17
6,38 6,25 0,40 4,57 2,50 M-LaF81 #13-586 €76,72 €60,31
8,00 10,00 0,33 8,75 2,15 M-LaF81 #13-585 €76,72 €60,31
9,00 12,50 0,30 3,00 3,00 M-LaC130 #13-584 €76,72 €60,31
Units: mm
Plastic Hybrid Aspheric Lenses
3D Printed Gradient Index (GRIN) Lenses
• Additively Manufactured through 3D Printing
• Highly Customizable Technology Enables Complex Lens Designs
• Variable Index by Alternating Polymer Material
3D Printed Gradient Index (GRIN) Lenses are additively manufactured through 3D inkjet-printing. These gradient
optics are printed from two polymer inks containing nanoparticles and then cured to hold shape. By changing
the nanoparticle concentration during the manufacturing process, a gradient refractive index is created in the
optic which can be designed to vary in any axis. The 3D inkjet-printing process is capable of altering the refractive
index contrast, refractive index gradient, and chromatic dispersion of the produced lenses, enabling highly
complex or freeform optical functions. 3D Printed Gradient Index (GRIN) Lenses are used in defense applications,
including night vision systems and imaging systems for unmanned aerial vehicles, to create smaller, lighter
optical systems.
Substrate: Polymer Containing Nanoparticles
Index of Refraction (nd): Polymer 1: 1,538
Polymer 2: 1,491
Lens Length (nm): 1,70
3D Printed Gradient Index (GRIN) Lenses
Diameter (mm) EFL (mm) BFL (mm) f/# Stock No. Price
5,0 15,6 15,0 3,1 #13-557 €64,17
NEW
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