Thanks for your response Gordo. No joke, seriously seeking answers. I came across that article while researching this but didn't get a definitive answer. While informative, what I took away was that all dots seem to have their pros and cons without really pointing to a solid recommendation. I would want to put a plate together with images and gradients similar to our more critical jobs using a few different dot types to see which works best. Based on your advice though, I should leave Euclidean off the table and do some testing with a round dot as well as with our current elliptical.
I'm curious about why the current GRACoL curve will work for testing the new dot. If the dots create different affects at the 40, 50 or 60% ranges, wouldn't the curve that's been specifically calibrated to correct dot gain for the elliptical dot throw off the color for the other dots? Sorry if these are basic questions. Things have been running the same here for a long time without anyone really knowing why, aside from "That's just how we've been doing it," so I'm trying to gain some clarity on it.
For CtP offset the best dot shape if you're using AM/XM screening is the round dot (non-transforming).
Benefits: Dot shape is the same for all screen angles and frequencies, optical bump is hidden in the shadows at the 75% tone, dot is non-directional so it is less affected by press problems. Reduces single channel moiré issues. Dot is non directional, i.e. all screen angle dots react the same to directional press issues such as slur and doubling.
With an elliptical dot the optical bump at 50% that a Euclidean (transforming round dot) dot shape exhibits is moderated by being split into two – when the dots first touch at the long width at the 40% tint and then again at the short width at 60%.
However, as walterz noted, the dot shape varies at different screen angles which can cause single color moiré and uneven dot gain. Dot is directional, at low lpi frequencies the “chaining” of the dots as two points touch can cause lines to appear as artifacts. Directional problems on press such as slur and doubling can cause strong tone and color shifts depending on the angle of orientation of the dots relative to the angle of the paper as it travels through the press.
Here are pics of the different dot shapes:
Euclidean:
Elliptical:
Round:
What happens at the 50% for Euclidean and at the 40%/60%) with Elliptical is an "Optical bump" - you see a dark line at those points. It's not dot gain in the sense that it can be fixed with dot gain curves. So from that point of view you can ignore it.
With today's screening engines most vendors have found work arounds to the 50% bump with Euclidean screens (e.g. taking a pixel out of one of the corners (as Agfa does) or slightly elongating the dots (as Esko does) when the dot transforms from round to square at 50% before going to inverted round. So you might not see the optical bump with your RIP.
And yes, if you're going to compare AM screens then compare Elliptical to Round. When you test, make sure you include causing a problem like slur to see how the different screens react.
(Please let me know if you cannot see the images when you're logged into PrintPlanet - there's sorcery goings on with attachments)
