Code | Material | AR Coating | Diameter-mm | EFL (mm) | BFL (mm) | R1=R2 (mm) | Tc (mm) | Te (mm) |
---|---|---|---|---|---|---|---|---|
DCV064 | UV Fused Silica(Quartz) | 250-450 nm | Φ10.0 | -10.0 | -10.670 | -9.48 | 2.0 | 4.85 |
UV AR Coating Quartz DCV Lenses
These UV Quartz Double-Concave Lenses are manufactured using UV Fused Silica, and coated UV AR Coating@250-400nm.
UV Quartz has a wider spectral range than K9 optical glass (185nm-2100nm), has excellent transmittance in the ultraviolet band, has a lower refractive index, better uniformity, smaller thermal expansion coefficient, and has higher chemical resistance and very low fluorescence, can be used to make a variety of optical components.
They are often used in image ultimate systems and finite conjugate imaging systems. The greater the conjugation ratio is, the greater the aberration appears.
Double-Concave Lenses are made of two concave surfaces with same radius, usually used in beam expansion applications, light projection, or focal length of expansion.
Tc---------- Center Thickness
Te---------- Edge Thickness
R1---------- Radius
Dia---------- Diameter
BFL ---------- Back Focal Length
EFL ---------- Effective Focal Length
H'-------------- Principal Point
1 | 2 |
---|---|
Center Thickness Tolerance | ±0.2mm |
Surface Irregular Accuracy | λ/4 @632.8nm |
Centering Tolerance | <3 arcmin |
Bevelling | <0.2×45° |
1 | 2 |
---|---|
Design Wavelength | 587.6nm |
Focal Length Tolerance | ±2% |
Diameter Tolerance | +0.0/-0.1mm |
Surface Quality | 40/20-60/40 |
The focal length of the Double-concave lens is negative, which is the best choice for diverging convergent beam.
Similar to Plano-concave lenses, Double-concave lenses can spread a parallel beam to the virtual focus, as in a Galilean beam expander.
UV AR Coated UV Fused Silica Double-Concave Lenses can also be Uncoated.
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