I got the lenses. Nine Scitex lenses, a mix of Scitex-2 and Scitex-3 varieties. three each of:
67mm f/4.9 (m= 0.215//4.65),
89mm f/5.0 (m=0.376//2.65),
110mm f/5.0 (m=0.726//1.4)
Also eight 80mm f/5.6 Rodagons (m=0.346//2.9).
The first m is the magnification as used in the scanner and the magnification after the "//" symbol is the magnification if reversed.The 80mm lenses may be designed for black-and-white work. The Scitex lenses appear to be designed to cover a linear sensor that is 35mm long.
This data comes from
http://www.largeformatphotography.info/ ... nses/page7
I have not yet tested them and these numbers might be off, depending on how the scanner operates
Ray Parkhurst found that even far from their designed magnification, some of these were competitive with (or even outperformed) the famous Nikkor 105mm apo enlarging lens, when oriented correctly (some tests were not oriented correctly initially):
http://www.macrocoins.com/100mm-lens-shootout.html
However, they are not fast lenses, and diffraction will limit them if they are reversed so that they magnify rather than reduce (which is what they are made for).
All are designed to shoot through thin glass on both image and object side.
I'll report some experiments eventually. I left the Scitex 2 lenses and one set of Scitex-3 lenses in the US to sell some day, so I will only be able to test one set of Scitex 3 lenses.
The scanner comes with a fat front-surface mirror as an added bonus. I'll play with that too. It may be useful to convert horizontal macro set-ups to photograph vertical subjects (like specimens in liquid).