4*3 g=0.9 flux tube interactions

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Uploaded by on Feb 11, 2008

4 N=3 flux tubes interacting to form a 4-vortex in a charged proton neutron system. Top slice is the Gauge energy density (E^2 +B^2), middle slice is the neutron condensate*10, lower slice is the proton condensate with iso-surface 0.1 away from the vev. the proton density is 10% of the neutrons, and the P_N coupling is 0.5. g=0.9 and all other coupling set to 1. No entrainment interaction.

I have added a low temperature gauge invariant perturbation in the beginning of the simulation to catalyze an possible instabilities that might appear due to too much symmetry in the initial conditions.

Note that the neutrons are over-dense in the proton vortex regions...

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  • omg just to think i have to learn all of this to get a good science job.

    M0rganPlaysHard 2 years ago

  • So, NOW YOU KNOW.

    Thisisnotmyrealname8 2 years ago

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