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arxiv: 0912.0304 · v2 · submitted 2009-12-02 · ✦ hep-th

On the iφ³ mathcal{PT}-symmetric Scalar Field Theory

classification ✦ hep-th
keywords theoryfieldscalarequationghostklein-gordonmathcalnon-hermitian
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In this work, we show that, for the $i\phi^{3}$ scalar field theory, their exists a contradiction between the assumption that the field is real and the fact that the quantized as well as the classical fields have to satisfy the Klein-Gordon equation. In solving the Klein-Gordon equation for the theory under investigation, we realized that the field is a pure imaginary solitary wave which spoils out the non-Hermiticity of the theory. Thus, instead of being non-Hermitian, the $i\phi^{3}$ scalar field theory is a kind of a Hermitian-Lee-Wick theory which suffers from the existence of the famous ghost states and instability problems. We applied a Canonical transformation to obtain a Non-Hermitian and non-$\mathcal{PT}$-symmetric representation which leads to the invalidity of the previous trials in the literature to cure the ghost states problem. Moreover, the solitonic solution is a non-topological one which is a very strange result to appear for a one component field theory. To account for this strange result, we conjecture that the $i\phi^{3}$ scalar field theory has an equivalent Hermitian and non-Lee wick theory that have a conserved Noether current.

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