Single cropped raw image of Omega Centauri. This is a 200% zoom of five stacked 180-second Milky Way images (which include the single image on the left and four others.)Īlong with decreasing noise - you are also able to saturate your images to get more accurate color because you are boosting signal instead of boosting the noise. This is a 200% zoom of a single 180-second Milky Way image, note how many stars are lost compared to the stack (right). Image stacking produces an intelligent average of each pixel of all exposures, detail for detail, instead of trusting just one exposure and hoping it’s accurate. Each time you shoot an image, the electrical characteristics of the sensor cause it to do its best at representing the photons it “sees.” However, from shot to shot, there are slight brightness and color variations on each pixel for the exact same image. When you stack, you reduce the differences in the digital representation of the light that hits and excites the camera sensor. One of the best benefits about stacking multiple exposures is the dramatic increase in the image quality, noise removal, by increasing your signal:noise ratio. I like that.īut, what is signal and what is noise? It’s pretty simple - signal is the stuff (light) we want, noise is the stuff (camera sensor errata) we don’t want. Stacking multiple exposures reduces noise by increasing the signal:noise ratio using reality.
![photo stacking software astrophotography photo stacking software astrophotography](https://www.astrophotography.app/assets/ph/skinAstro/APTWhite.png)
It’s more work, it takes more effort, but in the end the image quality you get from stacking multiple exposures can drastically improve your final product in multiple ways. Is it worth it to stack and process multiples vs.