SU(5) kink-antikink collisions

Conventions are set in my paper.

Energy density profile of the kink-antikink collision in the (q(1)=0, q(2)=0, q(3)=0) case with initial velocity v=0.05 and h/lambda=0: see animation
Individual  fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=0, q(2)=2, q(3)=2) case with initial velocity v=0.2 and  h/lambda=-0.15: see animation
Individual  fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=0, q(2)=2, q(3)=2) case with initial velocity v=0.1 and h/lambda=-0.1  : see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=0, q(2)=1, q(3)=1) case with initial velocity v=0.2 and h/lambda=-0.1: see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=1, q(2)=1, q(3)=1) case with initial velocity v=0.2 and h/lambda=-0.1: see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=1, q(2)=1, q(3)=2) case with initial velocity v=0.2 and h/lambda=-0.1: see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=1, q(2)=2, q(3)=1) case with initial velocity v=0.1 and h/lambda=-0.1: see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=1, q(2)=2, q(3)=2) case with initial velocity v=0.15 and h/lambda=-0.1: see animation
Individual fields in the same case as above: see animation . This is a case of an elastic collision.

Energy density profile of the kink-antikink collision in the (q(1)=2, q(2)=2, q(3)=0) case with initial velocity v=0.1 and h/lambda=-0.15: see animation
Individual fields in the same case as above: see animation

Energy density profile of the kink-antikink collision in the (q(1)=2, q(2)=2, q(3)=1) case with initial velocity v=0.1 and h/lambda=-0.15: see animation
Individual fields in the same case as above: see animation . This is a case of an elastic collision.

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