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Comment on the cosmological constant for $λφ^4$ theory in $d$ spacetime dimensions

Published 25 Apr 2023 in hep-th and gr-qc | (2304.13075v2)

Abstract: In a recent article we showed that the analog of the cosmological constant in two spacetime dimensions for a wide variety of integrable quantum field theories has the form $\rho_{\rm vac} = - m2 /2 \mathfrak{g} $ where $m$ is a physical mass and $\mathfrak{g} $ is a generalized coupling, where in the free field limit $\mathfrak{g} \to 0$, $\rho_{\rm vac}$ diverges. We speculated that in four spacetime dimensions $\rho_{\rm vac} $ takes a similar form $\rho_{\rm vac} = - m4/2 \mathfrak{g}$, but did not support this idea in any specific model. In this article we study this problem for $\lambda \phi4$ theory in $d$ spacetime dimensions. We show how to obtain the exact $\rho_{\rm vac}$ for the sinh-Gordon theory in the weak coupling limit by using a saddle point approximation. This calculation indicates that the cosmological constant can be well-defined, positive or negative, without spontaneous symmetry breaking. We also show that $\rho_{\rm vac}$ satisfies a Callan-Symanzik type of renormalization group equation. For the most interesting case physically, $\rho_{\rm vac}$ is positive and can arise from a marginally relevant negative coupling $\mathfrak{g}$ and the cosmological constant flows to zero at low energies.

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