Now you can get BOTH the 4nm DualBand Ha Oiii and the DualBand 4nm Sii Oiii filters together for a lower price!
By using both filters individually you get twice the Oiii data you would otherwise, plus separation of Ha and Sii Channels, so you can now do proper SHO Hubble pallette style imaging with a colour camera!
| DualBand Sii Oii | DualBand Ha Oiii | |
Ha | N | Y | |
Sii | Y | N | |
Oiii | Y | Y | 2x the Oiii Data when used together! |
These filters allow imaging in moonlight and extreme light pollution as in a major city, with a colour CMOS camera - or even in dark conditions if you want total control over your channels.
As a set, the transmit the Ha, Sii and Oiii light from emission nebulae, with almost total suppression of unwanted light, with OD4/5 or better (0.01%~0.001%) over the majority of unwanted visual wavelengths.
In a process pioneered by Altair, each individual filter has an individual test report, unique to that particular filter, not a blanket test report for the whole batch.
Narrowband Bi-Colour imaging is a growing new trend in astrophotography, especially popular in light polluted areas, or bright moonlight. First, Altair brought you the TriBand and Quad Band filters, now we have the DualBand Ultra for the most extreme signal vs. background performance.
Altair DualBand 4nm Filter Features:
- Capture the two main emission nebulae bands at the same time, whilst suppressing light pollution, moonlight, and airglow.
- More data in less time, opening up your imaging window, even into the summer months when it isn't quite dark yet. Capture twice the Oiii data, whilst obtaining Sii to complement the Altair Ha Oiii DualBand filter.
- Extremely steep bandpass yields maximum contrast in extreme light pollution: 4nm FHWM centred precisely on the target wavelengths.
- Can be used with One Shot Colour (OSC) CMOS or mono astronomical cameras for luminance data.
- Includes UVIR blocking for both modified and un-modified DSLR cameras, plus an anti-reflection coating for halo suppression. To see the AR coating in action, please see images demonstrating the same filter with and without the AR coating on the bright star, Capella in exactly the same conditions with the same settings.
- Best performance at focal ratios as fast as F4.8, with contrast increasing as focal ratio increases. More info about light pollution filter performance and focal ratio here.
- The 2" filter has standard M48x0.75mm thread, and fits inside the Altair Magnetic Filter holders, standard 2" filter wheels, plus the Altair Canon / Nikon DSLR lens to astro CMOS adaptors.
Altair 4nm DualBand Sii Oiii ULTRA Filter Specifications:
- 1st band, Oiii CWL500.7nm FWHM 4nm tolerance ~0.5nm, T% 90%
- 2nd band, Sii CWL 671.6nm FWHM 4nm tolerance ~0.5nm T% 90%
Altair 4nm DualBand Ha Oiii ULTRA Filter Specifications:
- 1st band, Oiii CWL500.7nm FWHM 4nm tolerance ~0.5nm, T% 88%~91%
- 2nd band, Ha CWL 656.3nm FWHM 4nm tolerance ~0.5nm T% 90%~94%
Both filters shared specifications:
- Parfocal 1.85mm thick optical glass with 30 arc sec parallelism.
- Individual spectrographic test report for guaranteed quality and performance
- OD4/5 Blocking (0.01%~0.001%) over the majority of unwanted wavelengths
- Si02 "hard" overcoat with UVIR Block and Anti-Reflection Coating for durability.
Q: How to OSC Narrowband filters work? Altair OSC narrowband filters work by isolating the primary nebulae emission zones in the red and blue wavelengths, and separating them into two main "zones" with a wide separation for easy capture with a colour camera - all in one exposure! Not only is capture more convenient with one filter, but processing is easy too, thanks to the wide separation of the green/blue and red "zones". Light pollution control is extremely effective and LED light is also significantly reduced.
Q: What does "DualBand" mean?
There are 3 types of OSC line filters in the Altair range:
- Dual-Band - the allowing only the thinnest peaks of Ha 656.3nm (or Sii6 71.6nm) and 500.7nm Oiii light from emission nebulae through. (Recommended for extreme light pollution in the worst possible conditions).
- Tri-Band - combines Ha into a red zone, and H-beta + Oiii into a green/blue zone. (For urban light pollution).
- Quad Band - combines Sii AND Ha into a red zone, and H-beta + Oiii into a green/blue zone. (For suburban / moderate light pollution).
| DualBand Sii Oiii | DualBand Ha Oiii | TriBand | QuadBand |
H-alpha 656.3nm | | Y | Y | Y |
Oiii 500.7nm | Y | Y | Y | Y |
Oiii 495.9nm | | | Y | Y |
Sii 672nm | Y | | | Y |
| 2x Bands | 2x Bands | 3x Bands | 4x Bands |
Sensitive OSC or "One Shot Colour" CMOS cameras like the Altair Hypercam capture these wavelengths very efficiently, and allow them through the Bayer matrix. The filters also work with DSLRs (APS-C sensor size modified cameras are best, but normal ones will also work). When you have the complete stack of exposures, processing is relatively easy because of the large separation in colour. You can also use these filters as a "super luminance filter" for imaging nebulae with Mono cameras.
In the box:
- 4nm DualBand Ha Oiii ULTRA filter with individual test report
- 4nm DualBand Sii Oiii ULTRA filter with individual test report
Products specifications
Further information | BestellNr. | F200DB4NM-COMBO | Hersteller | Altair | Artikelnummer | ALT-F200DB4NM-COMBO | Versandgewicht | 0.5kg | Filtergröße | 2"
| Bandbreite | 4nm
| Transmission bei FHWM OIII 4nm, SII 4nm und Ha 4nm durchschnittlich | 90%... 94%
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