More on gum tonal inversion
A discussion occurring in a different thread seems to have some relevance to my present musings about the various explanations for "tonal inversion" in gum.
It occurred to me, while puzzling about this, that I didn't remember seeing a tonal inversion in the 21-steps I printed to determine the exposure I used for the print of the HSL array posted earlier in this thread which, as Michael pointed out, did have a tonal inversion. I went down to the darkroom and dug out the test strips, and sure enough, that set of test strips, ranging roughly from 20% underexposed to 20% overexposed, like all the other test strips in the pile, are pristine white from the end of the tonal scale (7-8 steps for this particular emulsion) all the way through the 21st step. This is what I routinely see when printing step prints.
We've already established, I think, that it can't have been underexposure that caused the tonal inversion, because the array was well exposed. And I'm not inclined to be convinced by the underexposure explanation anyway, after running a series of tests using exposures ranging from 50% underexposed to 50% overexposed, in which I was not able to demonstrate any effect of exposure on stain in general or on tonal inversion in particular. If a paper was going to stain, it stained equally across all of the exposures and across all densities within each exposure; if it wasn't going to stain, it was equally stainfree across all exposures and all densities. If Sam's tests show differently, it would be lovely if he'd share them so we could all have the benefit of the information.
But then there's the question of excess density, which I think is a somewhat different issue, although the two do overlap to some extent. But that explanation also doesn't seem sufficient to me, because like many other gum printers, I've followed for many years the time-honored practice of printing from a negative with longer DR than matches gum's ES, and printing the negative twice, once for the shadows and once for the highlights. In other words, the first printing prints the lower end of the DR of the negative, and the second printing prints the higher end of the DR of the negative. When printing the shadow end first, I've always got pure white under the denser part of the negative, not a tonal inversion. And, as I've mentioned before, I almost invariably get pure paper white all the way to the end of a Stouffer 21-step.
So why would I get a tonal inversion printing the HSL array when I didn't get it printing the Stouffer 21-step? According to Stouffer, the 21st step represents an (optical) density of 3.05. But then the question of uv density vs optical density comes in, and also a different question, that was addressed in a different thread in this forum, about spectral sensitivity.
The conventional wisdom about the spectral sensitivity of gum seems to rest on assumptions rather than actual data, but as I probably wrote in that thread, the only research I've seen that actually looks at the spectral sensitivity of dichromated gum compared to the spectral sensitivity of other dichromated colloids, found that gum's spectral sensitivity was moved up into the visible range compared to whatever other dichromated colloids it was compared to, which were more where people assume the spectral sensitivity is for dichromated colloids in general. So I don't even know for sure whether a uv densitometer is appropriate for gum. And while there's a question hanging there about whether perhaps the squares toward the bottom of the HSL array are "denser" to whatever wavelengths gum is most sensitive to than the densest steps of the Stouffer 21-step are, and that's caused the tonal inversion, (although then, as I asked before, why wouldn't it happen every time?) I'm not sure there's any way to answer that question, since there are too many unknowns in the equation.
HOWEVER, I am forced by the data to concede that pigment concentration can't be a sufficient explanation; if it were, then I should have seen the tonal inversion in the 21-step as well as in the HSL print that was made with the same emulsion on the same paper with the same exposure, and it wasn't there.
Michael's got to be right; it has to be some kind of complicated interaction between variables. My 2cents worth,
Katharine
