Entanglement Suppression Due to Black Hole Scattering
- URL: http://arxiv.org/abs/2507.23729v2
- Date: Tue, 05 Aug 2025 12:07:03 GMT
- Title: Entanglement Suppression Due to Black Hole Scattering
- Authors: Kazuki Doi, Tadashi Takayanagi,
- Abstract summary: We consider the evolution of entanglement entropy in a two-dimensional conformal field theory with a holographic dual.<n>We are interested in a class of excited states produced by a combination of pure-state (local operator) and mixed-state local quenches.
- Score: 0.0
- License: http://creativecommons.org/licenses/by-nc-sa/4.0/
- Abstract: We consider the evolution of entanglement entropy in a two-dimensional conformal field theory with a holographic dual. Specifically, we are interested in a class of excited states produced by a combination of pure-state (local operator) and mixed-state local quenches. We employ a method that allows us to determine the full time evolution analytically. While a single insertion of a local operator gives rise to a logarithmic time profile of entanglement entropy relative to the vacuum, we find that this growth is heavily suppressed in the presence of a mixed-state quench, reducing it to a time-independent constant bump. The degree of suppression depends on the relative position of the quenches as well as the ratio of regularization parameters associated with the quenches. This work sheds light on the interesting properties of gravitational scattering involving black holes.
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