Optical Filters for Astronomy Applications
We manufacture the highest quality astronomy filters with durable, sputtered hard coatings using single substrates of the best glass, eliminating the need for laminations. All primary filter coatings are applied on the front surface and anti-reflection coatings on the rear surface to prevent ghosting and to maximize transmission.
Highly precise and accurate, the passbands of these filters remain spectrally stable and do not drift in response to extreme temperature fluctuations or changes in humidity. All filters may be used with apertures of f/4 or smaller. We provide custom coating services for more demanding imaging applications requiring larger apertures such as f/3 or f/2. We also can provide larger sizes and unique passbands upon request.
If you don’t see what you are looking for, please contact us. We have a large inventory of filters and a knowledgeable staff ready to help you design and build a filter to meet any specification.
Download our Brochure for more information.
Showing 36 products
Center/Edge/Notch Wavelength
Filter Type
- Overview
- Overview
27055
Sloan-u
UV photometric filter in Sloan ugriz series - Durable, high-transmission sputtered coating
- Overview
27060
Classic U-Bessell
- Overview
27052
B-Bessell
Blue photometric filter in UVBRI series - Durable, high-transmission sputtered coating
- Overview
27061
Classic B-Bessell
- Overview
- Overview
27056
Sloan-g
Green photometric filter in Sloan ugriz series - Durable, high-transmission sputtered coating
- Overview
27004
H-beta 3nm Bandpass
H-beta filters are also useful for imaging nebulae and objects rich in ionized hydrogen. At 486.1nm, a narrow-band filter is required to separate H-beta from nearby blue and green spectral lines. Although weaker than the H-alpha line, this is often used for visual detection as the longer red wavelengths of H-alpha are difficult to detect by eye.
- Overview
27005
H-beta 5nm Bandpass
H-beta filters are also useful for imaging nebulae and objects rich in ionized hydrogen. At 486.1nm, a narrow-band filter is required to separate H-beta from nearby blue and green spectral lines. Although weaker than the H-alpha line, this is often used for visual detection as the longer red wavelengths of H-alpha are difficult to detect by eye.
- Overview
27006
OIII 3nm Bandpass
Chroma’s OIII filters isolate the 500.7nm primary emission line of doubly ionized oxygen. After H-alpha, this is the next most common emission when imaging nebulae
- Overview
27007
OIII 5nm Bandpass
Chroma’s OIII filters isolate the 500.7nm primary emission line of doubly ionized oxygen. After H-alpha, this is the next most common emission when imaging nebulae
- Overview
27008
OIII 8nm Bandpass
Chroma’s OIII filters isolate the 500.7nm primary emission line of doubly ionized oxygen. After H-alpha, this is the next most common emission when imaging nebulae
- Overview
27066
OIII 3nm Bandpass optimized for f/2.8-f/3.6
Chroma’s OIII filters isolate the 500.7nm primary emission line of doubly ionized oxygen. After H-alpha, this is the next most common emission when imaging nebulae. Chroma’s f/3.0 filters are designed to minimize spectral shift and hold their shape better in an f/3.0 beam.
- Overview
27051
V-Bessell
Green (Visible) photometric filter in UVBRI series - Durable, high-transmission sputtered coating
- Overview
27062
Classic V-Bessell
- Overview
- Overview
- Overview
27057
Sloan-r
Red photometric filter in Sloan ugriz series- Durable, high-transmission sputtered coating
- Overview
27053
R-Bessell
Red photometric filter in UVBRI series - Durable, high-transmission sputtered coating
- Overview
27063
Classic R-Bessell
- Overview
27001
H-alpha 3nm Bandpass
H-alpha filters are essential for imaging nebulae and other objects which are rich in ionized hydrogen. At 656.3nm, a narrow-band emission filter is required to separate H-alpha from the SII doublet (671.6nm and 673.1nm).
- Overview
27002
H-alpha 5nm Bandpass
H-alpha filters are essential for imaging nebulae and other objects which are rich in ionized hydrogen. At 656.3nm, a narrow-band emission filter is required to separate H-alpha from the SII doublet (671.6nm and 673.1nm).
- Overview
27003
H-alpha 8nm Bandpass
H-alpha filters are essential for imaging nebulae and other objects which are rich in ionized hydrogen. At 656.3nm, a narrow-band emission filter is required to separate H-alpha from the SII doublet (671.6nm and 673.1nm).
- Overview
27065
H-alpha 3nm Bandpass optimized for f/2.8-f/3.6
H-alpha filters are essential for imaging nebulae and other objects which are rich in ionized hydrogen. At 656.3nm, a narrow-band emission filter is required to separate H-alpha from the SII doublet (671.6nm and 673.1nm). Chroma’s f/3.0 filters are designed to minimize spectral shift and hold their shape better in an f/3.0 beam.
- Overview