Kodak HC-110 X Agfa Rodinal - ins & outs

This content is also showed up on the  Large Format Photography Group forum, and I have wrote it few days ago.

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Considering that I have - in practical terms - learnt film development using this 2 film developers, maybe 30 years ago, and never have compared its results side by side, I had the idea to just do that and check by myself if my impressions could have a good feedback from my own tests, just to get rid of my own doubts.

Few days ago I have used this setup to do a side by side comparison about the ins & outs of this 2 very well known developers:

Film: Shanghai GP3 4x5, box rated ISO 125, used as ISO 80.
Camera + lens: Sinar F2, Sinar Copal shutter, Staeble Ultragon 8/150mm at f45.
Developers: Agfa Rodinal 1:50 with 12min. 68F/20ºC and HC-100 dil "H" (1:63) with 10min. 68F/20ºC
Yankee Agitank 4x5 - Pre-soak 1min, 30s ini. agit., + 10S each min. til finish.
Lightning: Ambient light 10:30 AM, Spot metered - Minolta Spot Meter - at the rose petals to Zone VII, table tissue falling mainly at Z-IX, and Z-10.
Scanning & PP: Nikon El-Nikkor lens 4/75mm and a FF Digital camera, 2 passes stitched with Hugin Panorama Creator and Gimp 2.9, with curves.

What I have noted about the test, but YMMV, it's my impression, not law:

The HC-110 has a more "crude" compression of the highlights and maybe a faster film speed result (+1/3 EV faster). I would rate it with this film at ISO 100, instead 80.
For 4x5 the film grain is barely visible, and if, only at 100% magnification.
More micro-contrast on the mid-range (Zones 4IV-VII) then Rodinal, losing some "punch on the deep grays.
Highlights have to be carefully controlled, as this developer, at this dilution with strong light tends to "burn" highlights - having both negatives at hand, I can see the very slightly more dense areas at both deep shadows and highlights, with mid grays near the same density.

The Rodinal in this test has responded in a different way then HC-110 but what really have "jumped" immediately is the less prominent contrast in both ends of the film contrast, more "linearity" and less steepness then HC-110. As I haven't plotted both film curves on paper neither any plotted curve table,  my opinion is only by "seeing" the results both on the negative itself and the image rendered by the scanning procedure. Here I have to open an parenthesis confessing that I'm not completely "aware" of the final results of the film rendering just looking at the plotted contrast curves of a pair film/developer. I can't "project" those curves on the reality of a given scene and that's why I made myself this sort of film development test.

Agfa Rodinal:

HC-110:

Crops from HC-110:

... and crops from Agfa Rodinal:

More conclusions, btw:

- These process lenses can be used in a daily basis if you don't mind to shot with at lest f22 (where the sharpness of these Ultragons begins to show up).

- You can scan film with a digital camera, the trick is the good stability, light setup and a lens borrowed from your enlarger

- Both developers are made in liquid form, fits in every budget, can be stocked by ages without visible lost in strength, and are available in many good retailers which sells it by the net.

- The vibrance of a Sinar Copal shutter ruining your photos showed to be just a question of tripod stability and stays for me as a Edgar Allan Poe story, which can be true if you believe it.


Have fun,

The new Gimp is here!

The Open Source Image Editor Gimp - GNU Image Manipulation Program - has new features for the development version 2.9 already available, but the most welcome are:

• The developing version seems to be quite stable - after 2 days working with to edit and save our pictures - the Linux version at least.
• The files can be edited and exported to 8, 16 and 32 bits data files - this is awesome as the previous Gimp version only worked with 8 bit files!
• The tiff image format under this new version doesn't show anymore the bug which stripped all EXIF data from tif files.
• All the main plugin features - including GMIC, and plugins-registry - seems to work flawlessly.

This new development version installs "as a breeze" on recent Ubuntu Linux distros and forks as the one I'm using - Linux Mint.

So, why wait for the 2.10 stable version? If stability is your main concern, wait for stable. If you have just being waiting for the new features only available at the development version as the ones described above, go ahead and  give it a try.
Where to get it? Here: http://www.webupd8.org/2013/10/gimp-29-210-development-builds.html

As the B&W film negatives I actually scan are "tweaked" later on Gimp for internet/client purposes, all these later features are more then welcome...

Have fun!

The benefits of lens coating on complex design lenses

The other day I was changing some ideas through a internet forum  dedicated almost exclusively to manual focus lenses with a friend, Ian Greenhalgh, and he made me aware about the benefits of a good coating on complex designed lenses. He also made me aware to the fact that chromatic aberration on lens is mostly a design issue - a collateral effect of design decisions - and nothing on lens coating can correct this issue, as coating is intended to deal with lens flare only, as follow:

Hi Renato

When light passes through the air-glass interface some is lost to scattering and reflection. Some of this non-image forming light still hits the film/sensor and causes reduced contrast and flare. Coating reduces the loss of light at this air-glass interface and therefore increases contrast and [minimizing] flare.

Coating is of most benefit in complex designs with many elements. For example, take a double-gauss type lens like a Planar, it has a pair of cemented doublets and a pair of meniscii making a total of 6 elements in 4 groups. It has a total of 8 air-glass interfaces. If we assume a typical loss of 5% at each of those interfaces, you are losing overall, 40% of the light that enters the lens, which has a massive impact on contrast. That is why double-gauss lenses like the Planar only became widespread after the advent of coating.

Chromatic aberration is when the different wavelengths of light converge at slightly different points. Most lenses are achromatic - they focus the green and blue light at the same point, this is why most lenses exhibit red/magenta colour fringes in difficult lighting situations such as bright highlights in direct sunlight. A lens that focuses green, blue and red light at the same point is apochromatic, few lenses that claim apochromatic correction are actually fully apochromatic. In most lens designs, an achromatic doublet with a crown glass element cemented to a flint glass element is used to correct for chromatic aberration. Apochromatic designs use exotic low dispersion glass such as fluorite in order to achieve full correction of CA (or more often, close to full correction).

Source: Wikimedia

Source: Wikimedia

From Camerapedia:

Coating against reflections between lens groups

Modern lenses are coated with a very thin layer of antireflective material (like magnesium fluoride or calcium fluoride). This lens coating is applied to the each element of a lens which has a surface exposed to air. The only purpose of coating lenses is to reduce lens flare by eliminating reflection off the surface of the glass; this has the effect of increasing contrast and giving images more "punch". Lens coating thicknesses are typically of the order of a few wavelengths of light, - a few nanometers (nm).
Lens coatings have nothing to do with color correction of lenses, as is widely thought.