SkyandTelescope.com September 2014 71the adjustments to the DBE back over to the raw image
using the same steps you used to move them to the back-
ground map. You can then examine both the corrected
image and the new background model based on the
adjusted set of samples.
If you’re still seeing lumps in the background model,
continue adding, removing, or moving samples around
and reapply. After a few interactions with DBE, you
should end up with a background model that closely
resembles the gradients in your target image. At that
point, you can apply an STF stretch to the corrected image
and inspect it for any additional gradients.In my example on the left of the Virgo Galaxy Cluster,
the resulting background isn’t evenly illuminated. But my
background model transitions very smoothly across the
entire fi eld, so these diff erences in “background illumina-
tion” must not be an artifact introduced by my eff orts to
remove gradients. This is the extremely faint dust and
nebulosity that permeates the Milky Way. Accurately
removing gradients enabled me to aggressively stretch the
image to reveal it.
If your original data was just a couple of hours of expo-
sure under suburban skies or through subpar conditions,
chances are that any existing faint signal wasn’t detected,
or is buried under several sources of noise. In other
words, a poor signal-to-noise ratio makes it impossible
to reveal faint objects. In my example, the image is more
than 25 hours of luminance under very dark skies. These
conditions allowed me to obtain suffi cient signal of these
extremely faint objects.
It might be daring for an amateur with a small tele-
scope to claim that the uneven illumination reveals faint
interstellar dust or nebulosity. And although we can never
be 100% certain that every background-intensity variation
corresponds to actual objects in our images, with this
accurate gradient removal technique, we can be very con-
fi dent that most leftover variations are indeed data-driven,
and not processing artifacts. ✦Rogelio Bernal Andreo often images elusive nebulosity from
the darkest locations in the southwest United States.Although we can never be absolutely sure that every brightness
variation in an image is real, removing the gradients in this photo
enabled the author to reveal what appears to be faint nebulosity.You can use the DBE tool on any deep-sky image with
adequate exposure. The author captured this mosaic of M78
and LBN 1622 using a Takahashi FSQ-106EDX and SBIG STL-
11000M CCD camera and corrected it with his technique.PixInsight.indd 71 6/23/14 12:17 PM