+1. It may well be that, statistically, more people prefer rosy Duv to green Duv, and maybe even to perfect BBL. But there must be a significant, if silent, minority, that, for general usage, prefers no Duv. Just as, I guess, I find myself in what must be a significant minority of people who prioritze CRI over tint. My eyes can compensate for tint variations, but there is no way to compensate for low CRI.
I would be surprised, but this matches what the researchers found. There was always someone who complained, no matter which tint was used… so no single choice will please everyone. However, the tints which had the fewest complaints were rosy to a degree of approximately –10 to –15 mduv.
It may also relate to the old idiom about rose-colored glasses. The phrase didn’t come from nowhere. Humans, in general, seem to find a touch of pink to be a bit more pleasant. Meanwhile, the counter-idiom of jade-colored glasses (or being jaded) refers to a more unpleasant outlook.
The ones I see discussed most often are the Lee minus-green filters. For example:
Compared to super green LEDs like the FB4 SST rosy ones look much better to my eye. However if I have a neutral tint (FD2 SST 20 and my good tint lottery 219cs in my D4) I find I much prefer it to a particularly positive or negative DUV.
To me the SW45K looks great next to super green LEDs, but when I compare it to any emitter that’s remotely neutral it looks pretty bad (even if it ends up making me perceive all others as “green”). It’s offensively rosy in the same way some are offensively green. That’s just my experience anyway ¯\/¯ The FD2 is as close to perfect as I’ve seen so far.
But… WHY? If the Daylight Locus is more green than the BBL, what is the supposed advantage of “merging” them this way? To say it another way: What light source is anyone measuring that they’d want to skew the “results” in this way?
Are you seriously complaining about the color of daylight? The advantages are numerous for technical and non-technical reasons. We evolved under daylight. We want our lighting to agree with daylight. Not have some weird discrepancy.
I understand that our eyes are naturally matched to daylight. But, why merge the lines? What advantage is it in scientific testing of “fluorescent” lights, including LEDs? The two lines exist already, and can be measured against, so what does this add that we need?
EDIT: BTW, I’m not complaining about daylight. That would be silly!
Again, studies pretty clearly demonstrate we don’t want that. It’s extremely useful to have a proper daylight reference in many situations, but it doesn’t mean it’s what people want for general lighting, especially at night. User preference is much more important than achieving the one true neutral tint.