I’m guessing it’s called that because it’s kinda headphone shaped. It was discovered in the 30’s so I’m assuming only the brightest parts of the nebula were visible to the astronomers.
This image is a combination of false color narrowband images for the nebula itself, plus true color RGB stars (the nebula is mostly red and a little blue in true color). If you zoom in to the center you can see the very blue white dwarf that caused the planetary nebula to form. Also for those curious this is what a single 10 minute long Ha exposure looks like (image total is 83.5 hours exposure). Captured over 33 nights from Jan-May 2024 from a bortle 9 zone.
Acquisition: 83 hours 30 minutes (Camera at -15°C), NB exposures at unity gain and BB at half unity
Ha - 238x600"
Oiii - 247x600"
R - 54x60"
G - 53x60"
B - 54x60"
Darks- 30
Flats- 30 per filter
Capture Software:
Captured using N.I.N.A. and PHD2 for guiding and dithering.
PixInsight Preprocessing:
BatchPreProcessing
StarAlignment
Blink
ImageIntegration per channel
DrizzleIntegration (2x, Var β=1.5)
Dynamic Crop
DynamicBackgroundExtraction 3x
duplicated each image and removed stars via StarXterminator. Ran DBE with a shitload of points to generate background model. model subtracted from original pic using the following PixelMath (math courtesy of /u/jimmythechicken1)
$T * med(model) / model
Narrowband Linear:
Blur and NoiseXTerminator
StarXterminator to completely remove stars (to be later replaced by the RGB ones)
ArcsinhStretch to slightly stretch nonlinear
iHDR 2.0 script (low preset) to stretch each channel the rest of the way.
![Jones-Emberson 1 - The Headphones Nebula [OC]](https://live.staticflickr.com/65535/53800870179_89516c07e8_o.png){kind=link}
I’m guessing it’s called that because it’s kinda headphone shaped. It was discovered in the 30’s so I’m assuming only the brightest parts of the nebula were visible to the astronomers.
This image is a combination of false color narrowband images for the nebula itself, plus true color RGB stars (the nebula is mostly red and a little blue in true color). If you zoom in to the center you can see the very blue white dwarf that caused the planetary nebula to form. Also for those curious this is what a single 10 minute long Ha exposure looks like (image total is 83.5 hours exposure). Captured over 33 nights from Jan-May 2024 from a bortle 9 zone.
Places where I host my other images:
Flickr | Instagram
Equipment:
TPO 6" F/4 Imaging Newtonian
Orion Sirius EQ-G
ZWO ASI1600MM-Pro
Skywatcher Quattro Coma Corrector
ZWO EFW 8x1.25"/31mm
Astronomik LRGB+CLS Filters- 31mm
Astrodon 31mm Ha 5nm, Oiii 3nm, Sii 5nm
Agena 50mm Deluxe Straight-Through Guide Scope
ZWO ASI-290mc for guiding
Moonlite Autofocuser
Acquisition: 83 hours 30 minutes (Camera at -15°C), NB exposures at unity gain and BB at half unity
Ha - 238x600"
Oiii - 247x600"
R - 54x60"
G - 53x60"
B - 54x60"
Darks- 30
Flats- 30 per filter
Capture Software:
PixInsight Preprocessing:
BatchPreProcessing
StarAlignment
Blink
ImageIntegration per channel
DrizzleIntegration (2x, Var β=1.5)
Dynamic Crop
DynamicBackgroundExtraction 3x
Narrowband Linear:
Blur and NoiseXTerminator
StarXterminator to completely remove stars (to be later replaced by the RGB ones)
ArcsinhStretch to slightly stretch nonlinear
iHDR 2.0 script (low preset) to stretch each channel the rest of the way.
RGB Linear:
ChannelCombination to combine monochrome R G and B frame into color image
SpectroPhotometricColorCalibration
BlurXTerminator for star sharpening (correct only)
HSV Repair
StarXterminator to generate a stars-only image
ArcsinhStretch + HT to stretch nonlinear (to be combined with starless narrowband image later)
Invert > SCNR > invert to remove magentas
Curves to saturate the stars a bit more
Nonlinear:
NoiseX again
Background Neutralization
Shitloads of Curve Transformations to adjust lightness, hues, contrast, saturation, etc
even more curves
Pixelmath to add in the stretched RGB stars only image from earlier
Couple final curves
Resample to 65%
DynamicCrop
Annotation