That's interesting. How does your lower-than-usual vertical stabilizer contribute?
Yes, you got it
Low rudder seems to work the opposite way compared to the trick with vertical CG (a high vertical stabilizer in a side wind tilts the model outward, so over the head in zero side wind, the same effect should occur). Therefore, a low vertical stabilizer is counterproductive in this sense, but centrifugal force works differently than crosswind, even we feel it similarly on the handle.
I learned to make low vertical stabilizers as a boy when I was flying with Jozef Gabris and his Supermaster with an extremely high vertical stabilizer. I often had trouble in the wind when entering the wingover because the model slowed down against the wind, and thanks to the high vertical stabilizer, it tilted inward into the circle, making the entry into the wingover problematic because of loss of line tension. I realized this when I noticed that entering from normal flight was difficult, but entering from inverted flight was safe(r).
The Maxbee has the entire surface of the vertical stabilizer aproximately symmetric around the thrust line and the stabilizer axis. The CG is vertically somewhere between the wing and the thrust line, but the moment in side wind come from distance to wing (LO exit) so it still creates some small moment in a side wind. However, compared to the MAXII which had higher vertical stabilizer, which I had at the World Championships in 2008 (placed second between David and Han), I don't feel too much difference in normal flight (except in extreme wind when entering the wingover). But iw was orriginally piped model (first time used in Sebnitz 2002 powered by OS.46 and pipe) so the wing was placed little up.
In any case Maxbees fly in wind much better than MAXII and MAX (MAXII and MAX are identical, differing only in logarithmic controls).