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67-765 12.5 mm Dia. Mounted Traditional Coated Bandpass Interference Filter; t=5.9 mm 460nm

67-765 12.5 mm Dia. Mounted Traditional Coated Bandpass Interference Filter; t=5.9 mm 460nm

Type
Filter
Subtype
Bandpass Filter
Brand
Edmund Optics
Product webpage
Edmund Optics products in the 3DOptix catalog

Properties

Shape
Circular
Diameter
12.5 mm
Cut Off Frequency
465 nm
Cut On Frequency
455 nm

Material

Name
UVFS
Dispersion Equation
Sellmeier
n (λ)
1.4648327213361019
λ
460 nm
B1
0.6961663
C1
0.004679148 μm2
B2
0.4079426
C2
0.013512063 μm2
B3
0.8974794
C3
97.93400254 μm2

67-765 12.5 mm Dia. Mounted Traditional Coated Bandpass Interference Filter; t=5.9 mm 460nm

The 67-765 is a 12.5 mm diameter, mounted traditional coated bandpass interference filter, with a thickness of 5.9 mm, specifically designed for a central wavelength (CWL) of 460nm. This filter is sourced from the reputable optical vendor, Edmund Optics, and is currently in stock, as indicated by its weblink status.

This filter is classified under the type "Filter" and sub-type "Bandpass Filter," signifying its primary function to allow light within a specific range of wavelengths to pass through while blocking other wavelengths. The base shape of this filter is circular, ensuring uniformity in its optical characteristics.

The material ID for this filter is "uvfs mal- 1965," providing a unique identifier for its specific composition. The filter's geometry includes a diameter of 12.5 mm and a thickness of 5.9 mm, contributing to its overall optical performance.

The physical data of this filter includes a cut-on wavelength of 455nm and a cut-off wavelength of 465nm. The CWL of 460nm is the wavelength at which the filter exhibits its maximum transmittance. These parameters make this filter ideal for applications that require precise wavelength selection.

The coating of this filter is consistent on both the front and back surfaces, with the front surface coated with "edm 67-765" and the back surface coated with the same. This coating enhances the filter's performance by reducing surface reflections and increasing transmission.

The shape of this filter is "Thin Lens," indicating its suitability for use in optical systems where a thin, lightweight element is required. This filter's detailed specifications make it a reliable choice for various applications in photonics, spectroscopy, and imaging.

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