Antlia Triband RGB Ultra Filter II
The Antlia Triband RGB Ultra Filter II is an evolution of the classic Triband RGB Ultra, now incorporating the H-beta line (486.1nm) for finer capture of nebula detail. Designed to eliminate light pollution, it is compatible with both color cameras (OSC) and monochrome sensors. Its optimized spectral design makes it possible to image over 90% of deep-sky objects, including galaxies, reflection nebulae, star clusters and emission nebulae, from Bortle 8 to Bortle 1 skies, while offering very natural RGB rendering.
Applications and Performance
- Efficient capture of galaxies, reflection nebulae, star clusters and emission nebulae
- Balanced transmission to minimize color drift on broadband objects (stars, galaxies)
- Excellent halo control and improved signal-to-noise ratio thanks to refined surface treatment
- Can be used with high-speed lenses up to f/2 without significant loss of efficiency or spectral drift
- Can be used as an alternative luminance filter for LRGB in mono imaging, except for dark nebulae (LDN)
- Can also be used for visual observation with large-diameter telescopes
- Targeted suppression of light pollution by effectively isolating Hα, OIII and blue spectra
Technical specifications
- Transmitted rays :
- H-alpha (656.3nm)
- NII (654.8nm and 658.3nm)
- SII (671.6nm and 673.1nm)
- OIII (495.9nm and 500.7nm)
- H-beta (486.1nm)
- Maximum transmission: >92% for all main lines
- Out-of-band blocking: ≥OD4 from 300nm to 1050nm
- Filter thickness: 2mm ± 0.05mm
- Available sizes: 2″ mounted (M48x0.75)
Advantages of the Antlia Triband RGB Ultra II filter
- Wide RGB spectrum capture, suitable for both emitting and reflecting objects
- Improved contrast on polluted backgrounds while preserving natural color balance
- Perfect for projects requiring a simplified LRGB approach under heavy light pollution
- Compatible with virtually all optical setups, up to f/2
- Flexibility for color or monochrome cameras
Warnings
- Not designed for solar imaging
- Never use to observe the Sun directly. This would cause serious eye damage.
