Spontaneous symmetry breaking of (1+1)-dimensional φ4 theory in light-front field theory (II)
Abstract
We discuss spontaneous symmetry breaking of (1+1)-dimensional φ4 theory in light-front field theory using a Tamm-Dancoff truncation. We show that, even though light-front field theory has a simple vacuum state which is an eigenstate of the full Hamiltonian, the field can develop a nonzero vacuum expectation value. This occurs because the zero mode of the field must satisfy an operator valued constraint equation. In the context of (1+1)-dimensional φ4 theory we present solutions to the constraint equation using a Tamm-Dancoff truncation to a finite number of particles and modes. We study the behavior of the zero mode as a function of coupling and Fock space truncation. The zero mode introduces new interactions into the Hamiltonian which breaks the Z2 symmetry of the theory when the coupling is stronger than the critical coupling.
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