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12-332 12.7mm 5°; 1030nm Highly-Dispersive Ultrafast Mirror Dielectric

12-332 12.7mm 5°; 1030nm Highly-Dispersive Ultrafast Mirror Dielectric

Type
Mirror
Subtype
Dielectric Mirror
Brand
Edmund Optics
Product webpage
Edmund Optics products in the 3DOptix catalog

Properties

Shape
Circular
Diameter
12.7 mm

Material

Name
Fused Silica
Dispersion Equation
Sellmeier
n (λ)
1.4500438058602083
λ
1030 nm
B1
0.6961663
C1
0.00467914825849 μm2
B2
0.4079426
C2
0.013512063073959999 μm2
B3
0.8974794
C3
97.934002537921 μm2

12-332 12.7mm 5°; 1030nm Highly-Dispersive Ultrafast Mirror Dielectric

The 12-332 12.7mm 5°; 1030nm Highly-Dispersive Ultrafast Mirror Dielectric is a specialized optical component designed for high-performance applications. Sourced from the renowned vendor Edmund Optics, this mirror is a part of their extensive catalog, known for its quality and reliability.

This mirror is of the Dielectric type, which means it utilizes multiple layers of dielectric material to reflect light. The dielectric coating on the front surface is specifically designed for a central wavelength of 1030nm, making it ideal for applications in this spectral range. The coating is identified as 'edm ult1000106012332', and it ensures high reflectivity and minimal absorption or scattering of light.

The mirror has a base shape of Circular, with a diameter of 12.7mm. This size makes it suitable for use in compact optical systems where space is at a premium. The mirror has a thickness of 6.35mm, which contributes to its rigidity and stability.

The material of the mirror is fused sil mal-1965, a type of fused silica. This material is chosen for its excellent optical properties, including high transparency across a wide range of wavelengths and low thermal expansion coefficient.

The mirror is designed in the shape of a Thin Lens, which suggests it may have some light-bending properties. However, without specific curvature data, it's impossible to quantify these properties.

The mirror's '1030nm Highly-Dispersive Ultrafast' designation indicates that it is designed to handle ultrafast laser pulses and has a high dispersion at the specified wavelength. This makes it suitable for use in applications such as femtosecond laser systems, nonlinear optics, and high-precision metrology.

According to the vendor's website, this item is currently in stock, ensuring quick delivery times for your optical system projects.

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