I’ll try not to post here too often, but a whole ton of results are coming back from different experiment configurations using the Unitary Rotation Vector Field simulator. One thing that became immediately obvious is that stable solutions are not going to come from most pole configurations–the spreading waves you saw on the previous post aren’t sustainable in a universe full of particles. I was pretty suspicious of something not right when I could make the dipole disappear entirely (see previous post).
I discovered a whole new ball game when I set up opposite pole dipoles:
The wave pattern disappears as the poles cancel out. The residual rotations shown occur because I have yet to apply the effect of the I dimension (the background state referred to in previous posts about the theory I’ve been working on). Here is a picture of two such dipoles of different frequencies:
There are wide space dipoles representing lower energy solutions:
Note that I’m just barely scratching the surface of the properties of this amazing field. I’m only using one of the rotation modes (there are three in the R3+I field of the theory), I don’t have the background state turned on yet, I am currently only studying 2D configurations, and I have not turned on any time dependent characteristics, in particular, how such particles will move. There’s so much to do and to document!
Agemoz
Tags: interference, physics, quantum, quantum theory, simulation, theory
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