The Astronomik narrowband filters are an excellent choice for any astrophotographer who wants to capture the most contrast-rich and detailed deep-sky images possible. These filters significantly reduce the effects of light pollution, allowing you to capture spectacular images even under urban, bright skies. Astronomik photographic filters can be used not only with traditional CCD cameras but also with digital SLR cameras and even video and webcams.
The filters have excellent light transmission properties in the selected wavelength range, while completely "cutting off" light at other "undesired" wavelengths. As a result, the contrast between the celestial background and the observed object increases, allowing faint details to be captured. Unlike visual filters, they "cut off" the IR range.
Halo-free imaging and premium solutions
It is quite common that when a narrowband filter is placed in the light path, a disturbing halo appears around brighter stars. This undesirable phenomenon is true for almost all manufacturers' filters and naturally reduces the aesthetic value of our images. Fortunately, Astronomik experts have managed to eliminate this optical flaw. Through meticulous adjustments to the coatings, they have achieved halo-free photos with Astronomik filters!
It is also noteworthy that Astronomik photographic filters are parfocal with each other, meaning you do not need to refocus your camera every time you change filters.
All Astronomik deep-sky filters are manufactured with maximum care and precision, ensuring the best possible contrast and light transmission. The extremely precisely polished glass material and the approximately 130-layer vapor-deposited filter coating clearly elevate Astronomik filters above their competitors. Another advantageous feature is their exceptional scratch resistance, so they maintain their transmission characteristics even after many years of intensive use. Thanks to the premium quality materials and craftsmanship, Astronomik filters do not degrade image quality in the slightest. Unlike cheaper filters, stars remain completely point-like.