Search, compare and simulate with 3DOptix!

MGI4040 40 x 40 mm Soda Lime Precision Grade 1/4λ Plane Mirror; t=6mm Dielectric 700-1064nm

MGI4040 40 x 40 mm Soda Lime Precision Grade 1/4λ Plane Mirror; t=6mm Dielectric 700-1064nm

Type
Mirror
Subtype
Dielectric Mirror
Brand
Knight Optical
Product webpage
Knight Optical products in the 3DOptix catalog

Properties

Shape
Rectangular

Material

Name
Soda Lime
Dispersion Equation
Cauchy
n (λ)
1.5233636829070192
λ
588 nm
A
1.513
B
-0.003169 μm-2
C
0.003962 μm2
D
0 μm4
E
0 μm6
F
0 μm8
G
0 μm10
H
0 μm12

MGI4040 40 x 40 mm Soda Lime Precision Grade 1/4λ Plane Mirror; t=6mm Dielectric 700-1064nm

This is the MGI4040, a 40 x 40 mm Soda Lime Precision Grade 1/4λ Plane Mirror with a thickness of 6mm, specifically designed for use with dielectric coatings in the 700-1064nm wavelength range. The mirror is sourced from Knight Optical, a reputable vendor known for their high-quality optical components.

The mirror is rectangular in shape, making it suitable for a wide range of applications where a flat, reflective surface is required. The soda lime material, which is known for its high transparency and durability, is used for the base of the mirror. This material is clear, ensuring high-quality reflection without any distortions.

The mirror features a dielectric coating on the front surface, specifically the Kni MI98 coating. This coating is designed to enhance the mirror's reflectivity in the specified wavelength range, making it ideal for applications that require high-precision reflection in the near-infrared spectrum.

The mirror is thin-lensed, which means it has a minimal thickness compared to its aperture. This design feature reduces the weight of the mirror, making it easier to handle and integrate into optical systems. Despite its thinness, the mirror maintains its structural integrity and optical performance, thanks to the precision manufacturing process used by Knight Optical.

The mirror is currently in stock and available for immediate purchase. For more information, you can visit the vendor's website using the provided weblink.

Find and simulate products from trusted suppliers!