Brand: Baader Planetarium

Baader Planetarium 20nm H-alpha Bandpass-Filters (with LPFC)

Brand: Baader Planetarium

Baader Planetarium 20nm H-alpha Bandpass-Filters (with LPFC)

  • H-alpha filter with 20 nm FWHM (CWL 656.3 nm), thus excellently suited for visual use at night - and photographically with CCD and CMOS cameras at telescopes with all f-ratios.
  • With new, highly effective UV/IR block coating from 300 nm to 1400 nm
  • Similar to the Super G filter in O III, the 20 nm H-alpha filter is an outstanding high-contrast deep-sky H-alpha/red filter for RGB applications, optimized for all color CCD and CMOS chips. It enables high-contrast images of H-II regions (e.g. North America nebulae) even from light-polluted environments.
  • Front-Reflex-Blocker™ hard coated and planeoptically polished – with sealed coating edges (Life-Coat™)
Special Order
$137.95 CAD

Filter Size

1.25" 2"

Easy Payment Options with .

How do I Special Order?
Special Order
$137.95 CAD

Easy Payment Options with .

How do I Special Order?
Free Expert Support
Stress Free, Secure Shopping
30 Day Return Policy
Price Match Promise
Full Details What's in the Box? Specifications Reviews and Questions Articles, Videos, Software, Links

Product Description

Warning: this filter alone is not suitable for direct viewing of the sun!

This 20nm filter replaces the former 35nm H-alpha filter, which was developed for interline CCD cameras. Due to advances in sensor technology, now much narrower filters can be used with colour sensors.

Compared to the CMOS-optimized Baader (Ultra) Narrowband Filters, the 20 nm H-alpha filter passes considerably more light. This makes the stars in the image brighter, allowing easier focusing, and the filter can be used at all focal ratios: There is no need for preshifting as with narrow band filters. This filter is especially interesting for users of colour cameras (which are less sensitive to red than monochrome cameras) who do not need extreme narrowband filters and want to enrich their colour images with H-alpha. At the same time this filter is a valid alternative to a standard R-filter of the RGB-scheme. It blocks much more of deteriorating light pollution and still passes all H-alpha for all focal ratios.

A notable difference to all H-alpa pass filters on the market is the fact that this filter does include highly efficient UV/IR blocking. being completely blocked out to 1400 nm, to eliminate blurring ("heat-noise") caused by defocused light on refractor optics.

The Baader H-alpha Bandpass (20 nm) filter has got all the advantages of the new generation of CMOS-optimized Baader filters:

  • Increased contrast, matched for typical CMOS quantum efficiency and s/n ratio
  • Reflex-Blocker coatings, for largest ever freedom from halos, even under most adverse conditions concerning aux-optics
  • Identical filter thickness to existing standards, with utmost care for parfocality
  • Blackened edges all around, with filter-lead-side-indicator in the form of a telescope-sided black outer rim, to additionally eliminate any reflection due to light falling onto the edge of a filter, making additional front-masks obselete.
  • Each filter coated individually, with sealed coating edge (NOT cut out of a larger plate with coatings left exposed, read more)
  • Life-Coat™: evermore hard coatings to enable a non-aging coating for life – even in a most adverse environment

What's in the Box

  • One Baader Planetarium 20nm H-alpha Bandpass-Filter (with LPFC)

Specifications:

Model/Size 1.25" 2"
Manufacturer Baader Planetarium Baader Planetarium
SKU (#) 2961850 2961850
EAN Code 4047825053824 4047825053824
Net weight (kg) 0.06 0.06
Transmission Range H-alpha H-alpha
Filter Thickness (without cell) 2 mm 2 mm
HBW (Halfbandwidth) 20nm 20nm
CWL (Central Wavelength) 656.3 nm 656.3 nm
AR-Coating dielectrically coated, planeoptically polished
Filter size 1.25 Inch 2 Inch
Filter Usage CMOS / CCD / H-alpha / IR-Cut
Filter mounted Mounted (LPFC 6mm) Mounted (LPFC 6mm)
Type of Filter Narrowband Narrowband
Single or Set? Single Filter Single Filter
Filter shape Round Round

Customer Reviews

Be the first to write a review
0%
(0)
0%
(0)
0%
(0)
0%
(0)
0%
(0)

Why Should You Trust All Star Telescope?

We've Made All The Mistakes
So You Don't Have To

Learn More