Journal of High Energy Physics (Nov 2023)
Stability analysis of a non-unitary CFT
Abstract
Abstract We study instability of lowest dimension operator (i.e., the imaginary part of its operator dimension) in the rank-Q traceless symmetric representation of the O(N) Wilson-Fisher fixed point in D = 4 + ϵ. We find a new semi-classical bounce solution, which gives an imaginary part to the operator dimension of order O ϵ − 1 / 2 exp − N + 8 3 ϵ F ϵQ $$ O\left({\epsilon}^{-1/2}\exp \left[-\frac{N+8}{3\epsilon }F\left(\epsilon Q\right)\right]\right) $$ in the double-scaling limit where ϵQ ≤ N + 8 6 3 $$ \epsilon Q\le \frac{N+8}{6\sqrt{3}} $$ is fixed. The form of F(ϵQ), normalised as F(0) = 1, is also computed. This non-perturbative correction continues to give the leading effect even when Q is finite, indicating the instability of operators for any values of Q. We also observe a phase transition at ϵQ = N + 8 6 3 $$ \epsilon Q=\frac{N+8}{6\sqrt{3}} $$ associated with the condensation of bounces, similar to the Gross-Witten-Wadia transition.
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