Ngc300

[Peter.M]

Quote:

Originally Posted by Paul Haese

Yep better than my effort Ray. Though you are using 4 more inches than I am at present. I like the detail and the image scale. Well done.

That's what she said

I couldn't help myself. Great image of a great target!

[PRejto (Peter)]

That's a cracker of an image!! I tried this a year ago but from light polluted Sydney I think it was a lost cause before I started.

I'll be curious to see the Ha blend when and if.

Peter

[naskies (Dave)]

Quote:

Originally Posted by Shiraz

I like the negative version as well - somehow we seem to be able to see detail better when it is reversed - don't know why

I was thinking about this today on my way to/from classes today, and remembered that I'd read about it during my visual system module at uni last year.

The short answer is that it's physiologically wired into our retinas.

Our retinas have separate and different circuits, retinal ganglion cells, for detecting a "white dot on black background" (so-called ON retinal ganglion cells) versus a "black dot on white background" (OFF cells). The photosensitive rods and cones that we all know about feed their output (eventually) to the retinal ganglion cells.

It sounds a bit absurd, but the different types of cells are used to detect object edges - see the red/green computer simulation diagram at the bottom:

http://en.wikipedia.org/wiki/Receptive_field

When viewing low contrast scenes, ON cells can detect both decreasing light ("grey dot on black background" turns into a "white dot on black background") and increasing light ("black dot on a white background" becomes "grey dot on a white background") changes. However, OFF cells can only detect decreasing changes in contrast.

Therefore, with low-contrast images - looking at faint structures in astro images - our eyes are more sensitive to light decrements (i.e. black detail on a white background as with inverted astro images) because both the ON and OFF pathways are triggered.

Here's an article that describes the technical detail behind the mechanisms (warning: it's not an accessible read for non-physiologists), but receptive fields in general are discussed in most vision texts.

http://www.jneurosci.org/content/23/7/2645.full.pdf

[Paul Haese]

Quote:

Originally Posted by Shiraz

thanks Paul. aperture sure helps, but the biggest problem was getting enough good seeing in combination with dark skies. I am going to have to find a better dark site than this one if I am going to image this sort of stuff.



Regards Ray

Yeah it took me a few years to find my spot.

[strongmanmike (Michael)]

Quote:

Originally Posted by gregbradley

Arrrgghhh tread carefully there! I would not blend Ha into the red channel as you lose control. Ha will dominate and you'll get one of those silly M33 with pink splotches everywhere! Lightly does it and Ha as a separate layer in lighten mode so you retain control.

You've got a masterpiece galaxy image here so don't spoil it!
Greg.

Oi! what's wrong with red splodges ...some people love'em

Don't listen to him Ray dooooon't.. get out there blend, BLEND BLEND I say!

Mike

[Nicola (Nicola)]

Excellent details!

[Shiraz (Ray)]

Quote:

Originally Posted by Lee

I think you can stretch more and increase the contrast before it becomes undesirably clipped.... ??

will have a play around and post a revised version if I can do any better.

Quote:

Originally Posted by Peter.M

That's what she said

I couldn't help myself. Great image of a great target!

thanks Peter

Quote:

Originally Posted by PRejto

That's a cracker of an image!! I tried this a year ago but from light polluted Sydney I think it was a lost cause before I started.

I'll be curious to see the Ha blend when and if.

Peter

Thanks Peter. It is pretty hard imaging faint objects in light pollution - can't imagine what it must be like in Sydney

Quote:

Originally Posted by naskies

I was thinking about this today on my way to/from classes today, and remembered that I'd read about it during my visual system module at uni last year.

The short answer is that it's physiologically wired into our retinas.

Our retinas have separate and different circuits, retinal ganglion cells, for detecting a "white dot on black background" (so-called OFF retinal ganglion cells) versus a "black dot on white background" (ON cells). The photosensitive rods and cones that we all know about feed their output (eventually) to the retinal ganglion cells.

It sounds a bit absurd, but the different types of cells are used to detect object edges - see the red/green computer simulation diagram at the bottom:

http://en.wikipedia.org/wiki/Receptive_field

When viewing low contrast scenes, ON cells can detect both decreasing light ("grey dot on white background" turns into a "black dot on a white background") and increasing light ("black dot on a white background" becomes "grey dot on a white background") changes. However, OFF cells can only detect decreasing changes in contrast.

Therefore, with low-contrast images - looking at faint structures in astro images - our eyes are more sensitive to light decrements (i.e. black detail on a white background as with inverted astro images) because both the ON and OFF pathways are triggered.

Here's an article that describes the technical detail behind the mechanisms (warning: it's not an accessible read for non-physiologists), but receptive fields in general are discussed in most vision texts.

http://www.jneurosci.org/content/23/7/2645.full.pdf

Thanks very much for that Dave - very clear explanation. So there is a physiological basis for our ability to see dark detail against a light background - fascinating. Now for an hypothesis on why. Maybe our eyes have the same structure as those of smaller creatures that had a need to see predatory birds against the bright sky. I was watching Meerkats at the zoo and they maintain a constant watch on the sky responding to birds and aircraft with alarm. Physics dictates that most objects at a distance end up as dark spots against a bright sky and mammalian visual systems have evolved to be very sensitive to that threat - maybe?.

Quote:

Originally Posted by Paul Haese

Yeah it took me a few years to find my spot.

It was OK over here, but then Viterra decided that the whole town needed to be able to bask in the glow of the floodlighting on their silos and the local council decided that the hospital helipad needed Sodium lighting that burned off the surrounding grass as part of its task.

Quote:

Originally Posted by strongmanmike

Oi! what's wrong with red splodges ...some people love'em

Don't listen to him Ray dooooon't.. get out there blend, BLEND BLEND I say!

Mike

Two experts with differing opinions - unprecedented . Probably will tread warily until I get a better understanding of what I am trying to do

Quote:

Originally Posted by Nicola

Excellent details!

thank you Nicola

[Rigel003 (Graeme)]

Fantastic photo of a magnificent galaxy, Ray. It's like a southern version of M101. Just beautiful.

[Shiraz (Ray)]

Quote:

Originally Posted by Rigel003

Fantastic photo of a magnificent galaxy, Ray. It's like a southern version of M101. Just beautiful.

thanks very much Graeme Regards ray

[multiweb (Marc)]

Superb shot Ray. Missed that one. Shows me what can be done with that scope. Pretty high standard.

[jjjnettie (Jeanette)]

Beautiful!

[Shiraz (Ray)]

Quote:

Originally Posted by multiweb

Superb shot Ray. Missed that one. Shows me what can be done with that scope. Pretty high standard.

thanks Marc. The scopes are pretty good optically, but a real PITA to manage mechanically - everything bends and shifts a little.

Quote:

Originally Posted by jjjnettie

Beautiful!

Thanks very much Jeanette

regards ray

[Ross G]

Great looking photo Ray.

Sharp, detailed with great colour.

Nicely composed.

Probably the best photo I have seen of this galaxy.

Ross.

[Shiraz (Ray)]

Quote:

Originally Posted by Ross G

Great looking photo Ray.

Sharp, detailed with great colour.

Nicely composed.

Probably the best photo I have seen of this galaxy.

Ross.

Hi Ross. thanks for your generous comment. Regards ray

[strongmanmike (Michael)]

Quote:

Originally Posted by Ross G

Great looking photo Ray.

Sharp, detailed with great colour.

Nicely composed.

Probably the best photo I have seen of this galaxy.

Ross.

Yeah? well just you wait till he adds (oh, I mean blends) that Ha in Rossco!