Correlation functions, entanglement and chaos in the T T ¯ / J T ¯ $$ T\overline{T}/J\overline{T} $$ -deformed CFTs

• Main Authors: Song He, Hongfei Shu
• Format: Article
• Language: English
• Published: SpringerOpen 2020-02-01
• Series: Journal of High Energy Physics
• Subjects: Conformal and W Symmetry; Conformal Field Theory; Integrable Field The-ones
• Online Access: https://doi.org/10.1007/JHEP02(2020)088

Abstract In this paper, we regard the T T ¯ / J T ¯ $$ T\overline{T}/J\overline{T} $$ -deformed CFTs as perturbation theories and calculate the first order correction of the correlation functions due to the T T ¯ / J T ¯ $$ T\overline{T}/J\overline{T} $$ ­deformation. As applications, we study the Rényi entanglement entropy of excited state in the T T ¯ / J T ¯ $$ T\overline{T}/J\overline{T} $$ -deformed two-dimensional CFTs. We find, up to the first order perturbation of the deformation, the Rényi entanglement entropy of locally excited states will acquire a non­trivial time dependence. The excess of the Rényi entanglement entropy of locally excited state is changed up to order O(c). Furthermore, the out of time ordered correlation function is investigated to confirm that the T T ¯ / J T ¯ $$ T\overline{T}/J\overline{T} $$ -deformations do not change the maximal chaotic behavior of holographic CFTs up to the first order of the deformations.