@vedostuu: I am unfortunately out of ideas. I suspect the difference could be in the spectral makeup of your blue light source, but that's hard to quantify. I do have a spare of the RGB LED I use lying around and I'd be happy to mail it to you, in case you would want to try it in your setup.
Mark, thanks for publishing your data.
Looking at the difference between the numbers in the table (which I understand as log2 attenuations) I would suspect that the combination brightness-sensitivity of the paper is much stronger for blue than for green illumination. It could be that the blue light source is much brighter or the paper is much more sensitive to blue than to green or a combination of the two. Mark, do you have a table prepared as well for a bright highlight tone?
@ic-racer: Indeed there is confusion about how to read the ISO(R) out of the scan of the step wedge projections. I am by no means an expert on the topic, so I will quickly lay out my train of thought. Looking at the strip "V Blue" I say that the first step with density is 14. I would also consider 15, but step 14 could actually be quite close to the 0.04 density lower limit of ISO(R). Going upwards through steps 13, 12, 11, 10 I reach step 9, this is last "big difference". I can still make out a difference in density between step 9 and 8. I would be surprised if step 9 is much beyond 90% of DMax, so 14->13->12->11->10->9 would be 5 steps, i.e. ISO(R) 75. I have relative confidence in this because I suspect that step 14 could be darker than 0.04 and step 9 is about right, so in turn I suspect that I'm underestimating ISO(R) by a bit. If I understand you correctly, you would only count the transitions 14->13->12->11->10, i.e. 4 transitions for an ISO(R) of 60. Is this correct? Why would you not count the step 10->9 at least partially?
Below are measurements I made about 2 weeks ago. The data is not as nice as I would like it to be, but it's enough to see general trends. I believe my developer was not fresh anymore, which should explain the low DMax. A couple more words of warning: The data appears very "noisy" in the dark tones and I don't yet understand why. Maybe the weak developer plays a role in this, maybe I have a bug in my timing control. The line for ratio 0.0 appears to have the same group of 5 sample twice starting at 0.3 and 0.9 rel log(E). I suspect that this is mismanipulation of the exposure control program on my part.
Shown is a HD chart for 11 different ratios G/(B+G) where G and B are exposure times in seconds. I measured the curves by first preparing test strips using time control and then measuring the densities. I am using Ilford MGRC Pearl and Ars Imago Eco Paper Developer. The three vertical lines are at 0.04, 50% DMax and 90% DMax.
Also shown is a chart ("spread") that shows the difference in rel log(E) between where I estimate a line crosses 0.04 density and 90% (estimated) DMax on the y axis, the x axis is the ratio G/(B+G) of the illumination. I didn't dare label the y axis "ISO(R)" because the data is so dirty. But with some imagination you can see a trend between increasing green illumination and ISO(R)
