Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2003-03-18
Nucl.Phys. B665 (2003) 623-648
Physics
High Energy Physics
High Energy Physics - Theory
30 pages LaTeX, 3 eps-figures
Scientific paper
10.1016/S0550-3213(03)00487-5
We explore the effects of a heavy fermion doublet in a simplified version of the standard electroweak theory. We integrate out the doublet and compute the exact effective energy functional of spatially varying gauge and Higgs fields. We perform a variational search for a local minimum of the effective energy and do not find evidence for a soliton carrying the quantum numbers of the decoupled fermion doublet. The fermion vacuum polarization energy offsets the gain in binding energy previously argued to be sufficient to stabilize a fermionic soliton. The existence of such a soliton would have been a natural way to maintain anomaly cancellation at the level of the states. We also see that the sphaleron energy is significantly increased due to the quantum corrections of the heavy doublet. We find that when the doublet is slightly heavier than the quantum--corrected sphaleron, its decay is exponentially suppressed owing to a new barrier. This barrier exists only for an intermediate range of fermion masses, and a heavy enough doublet is indeed unstable.
Farhi Edward
Graham Noah
Jaffe Richard L.
Khemani Vishesh
Weigel Herbert
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