Follow Me on Instagram | Astrobin
The Pacman Nebula is a bright emission nebula in the constellation Cassiopeia.
Equipment:
Orion 8in F4.9 1000mm Newtonian Reflector
- Flocked / Primary mirror replaced due to turned-down-edge
Skywatcher F4 Aplanatic Coma Corrector
Astrodon I Series 5nm Ha, 3nm Oiii, 5nm Sii narrowband filters
ASI183mm Pro cooled to -15C
Celestron CGEM Mount
Self tuned / hacks to get guiding stable include:
Intentional offset polar alignment so dec always pulses in one direction
Balance “west” heavy (rather than the recommended east) so that the ota “falls” onto the gear teeth rather than get “lifted”
Factor Reset hand-controller daily (to prevent cgem from being possessed and forgetting where the meridian is on subsequent night)
Dither in RA only
Data Acquired using N.I.N.A and Guided with PHD2
Acquisition Details (excluding rejected frames):
Ha: Best 36 of 40x10min (6 hours 00 minutes)
Oiii: Best 27 of 44x10min (4 hours 30 minutes)
Sii: Best 34 of 51x10min (5 hours 40 minutes)
Total: Bests 16 hours 10 minutes of 22 hours 30 minutes
The resulting image is a combination of the following steps:
Inspected all subs for bad images with Blink, discarding 40 subs due to clouds or otherwise poor guiding
Calibrated all subs with their corresponding master flat and master dark
Used subframe selector to weight Ha, Oiii, Sii separately for integrating each
1 |
|
Selected the best sub from subframe and blink to use as a reference frame which stacking each set
Created a SNR Optimized Synthetic Luminance by integrating the three resulting stacks documented by Juan Conejero of the PixInsight Development team.
Cropped the stacking edges of the integrated masters
Linear fit the Ha and Sii images to Oiii for the initinal color balance
Combined the Sii as Red, Ha as Green and Oiii as the Blue channel to create a color RGB image
Luminance Processing:
Dynamic Background Extraction
6 large points (Radius: 75 and 50)
Subtraction/Normalized
Automatic Background Extractor
- Function degree 1 with normalization
Deconvolution was done on a separate copy of the luminance with
No deringing
wavelet regularization with 5 layers and strong but reducing amounts/thresholds
A starmask was created from a separate unmodified copy to replace the stars with the origional superluminance, eliminating the ringing artifacts from deconvolution as similarly documented by /u/OkeWoke
Noise Reduction was done using TGV Denoise with a low contrast mask and an autostretched local support and MMT with a very protective luminance mask
Combination of Histogram Transformation and Masked Stretch
Deconvolution with a star mask and Parametric PSF to tighten star cores
Morphological Transformation with a contours based star to shrink the overall intensity stars
Local Histogram Equalization - Two rounds at high scale with low amounts
S-Curve for overall contrast
HDR Multiscale Transformation - 6 Layers with a mask protecting the stars
SHO Processing:
Dynamic Background Extraction
- 19 large points using Subtraction/Normalized
RGB Workingspace set to 1,1,1
Remove Magenta from SHO Stars (Invert+SCNR Green+Invert)
Noise Reduction using TGV Denoise with a low contrast mask and an autostretched local support
Noise Reduction using MMT with a very protective luminance mask
Morphological Transformation with a contours based star to shrink the overall intensity stars
Histogram Transformation to stretch to non-linear
Channel Combination in
CIE L*A*Bmode to add the Synthetic Luminance to the SHO color imageAdditional Star Shaping with Morphological Transformation with Star Masks and Contours based star masks
Additional sharpening and noise reduction using ATrousWaveletTransform
Dark Structure Enhance script to bring out dark gobules throughout the nebula
Various curves to bring the Ha background to Brown, Soften the Green Overcast, and enhance contrast
Constructive criticism is welcome. Let me know what you think! How can I improve?