Collision Induced Decays of Electroweak Solitons : Fermion Number Violation with Two Initial Particles

This paper presents work done in collaboration with E. Farhi, J. Goldstone, and A. Lue which is described in full in Ref. [1]. We consider a variant of the standard electroweak theory in which the Higgs sector has been modified so that there is a classically stable weak scale soliton. We explore fermion number violating processes which involve soliton decay. A soliton can decay by tunnelling under the sphaleron barrier, or the decay can be collision induced if the energy is sufficient for the barrier to be traversed. We discuss classical solutions to the Minkowski space equations of motion in which a soliton is kicked over the barrier by an incoming pulse. We then consider a limit in which we can reliably estimate the amplitude for soliton decay induced by collision with a single W -boson. This amplitude depends on g like exp(−cg−1/3), and is larger than that for spontaneous decay via tunnelling in the same limit. Finally we show that in soliton decays, light SU(2)L doublet fermions are anomalously produced. Thus we have a calculation of a two body process with energy above the sphaleron barrier in which fermion number is violated.