Are you measuring without the expander?
If so, I would stop worrying about infinity and measure the spot foot by foot so we can calculate what it's doing, there are many variables.
I was saying the other day that with a NUBM44 and a DTR G2 with that G2 focused sharp at 15 feet then my 6x cyl pair set 35mm apart I got a thin ribbon about 7mm wide at the aperture, that beam ran negative to 7 feet where it was about 5mm wide then at 14 feet it was 7mm wide again and at 32 feet it was around 15mm wide.
Now if I calculated divergence from aperture to 32 feet with no other variables that divergence would be wrong. If I calculated from aperture to 14 feet it seems to be perfect but it's a trick I used to get better burning at my up close working range, it's not really holding 7mm wide over 14 feet, but with just 2 points to calculate it looks like it is.
However with a sanwu G2 my beam does not run negative and it also works better in the 3X expander for some reason, shorter FL I believe.
Anyway give spot measurements foot by foot, you can't go by what it looks like and how infinity looks is near useless except for pleasing aesthetics, so make real measurements foot by foot from aperture to 30 feet and you can get an idea if your divergence is non linear for some reason.
You can almost see in this pic how the beam gets thinner but it expands again from 7 feet.
p.s. This is something DTR's G2 did with the 06 diode as well, the further I set my G2 focus the further the bottom out until divergence ran positive again, but if you set your G2 to infinity then you may well be running slightly negative a long way, this will work well, but you can't calculate straight forward divergence this way, I had posted some videos showing the difference between the DTR and Sanwu single element G2 and I could not get the DTR G2 to move the tightest spot back to the lens face as I could with the Sanuw.
Anyway I will bet you are running slightly negative divergence for quite some distance.
