Equivalence of a Complex -Symmetric Quartic Hamiltonian and a Hermitian Quartic Hamiltonian with an Anomaly

Abstract

In a recent paper Jones and Mateo used operator techniques to show that the non-Hermitian -symmetric wrong-sign quartic Hamiltonian H= p2-gx4 has the same spectrum as the conventional Hermitian Hamiltonian H= p2+4g x4-2g x. Here, this equivalence is demonstrated very simply by means of differential-equation techniques and, more importantly, by means of functional-integration techniques. It is shown that the linear term in the Hermitian Hamiltonian is anomalous; that is, this linear term has no classical analog. The anomaly arises because of the broken parity symmetry of the original non-Hermitian -symmetric Hamiltonian. This anomaly in the Hermitian form of a -symmetric quartic Hamiltonian is unchanged if a harmonic term is introduced into H. When there is a harmonic term, an immediate physical consequence of the anomaly is the appearance of bound states; if there were no anomaly term, there would be no bound states. Possible extensions of this work to -φ4 quantum field theory in higher-dimensional space-time are discussed.

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