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Auteurs principaux: Jiang, Xiaole, Kabat, Daniel, Marthandan, Aakash, Sarkar, Debajyoti
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2509.18464
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author Jiang, Xiaole
Kabat, Daniel
Marthandan, Aakash
Sarkar, Debajyoti
author_facet Jiang, Xiaole
Kabat, Daniel
Marthandan, Aakash
Sarkar, Debajyoti
contents We develop a perturbative understanding of the modular Hamiltonian for a 2D CFT, divided into left and right half-spaces, with a weak local perturbation inserted in the future wedge. A formal perturbation series for the modular Hamiltonian is available, but must be properly interpreted in quantum field theory. We work inside correlation functions with spectator operators, and introduce a prescription for defining complex modular flow via analytic continuation to properly resolve singularities. From the correlators, we extract an operator expression for the modular Hamiltonian. It takes the form of a local operator in the future wedge plus contact terms with an unconventional singularity structure. Thanks to this structure the KMS conditions are satisfied, which independently establishes the validity of the results. Similar techniques apply to perturbations inserted in the past wedge. We mention various future directions, including an all-orders speculation for the excited state modular Hamiltonian.
format Preprint
id arxiv_https___arxiv_org_abs_2509_18464
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modular Hamiltonians for future-perturbed states
Jiang, Xiaole
Kabat, Daniel
Marthandan, Aakash
Sarkar, Debajyoti
High Energy Physics - Theory
We develop a perturbative understanding of the modular Hamiltonian for a 2D CFT, divided into left and right half-spaces, with a weak local perturbation inserted in the future wedge. A formal perturbation series for the modular Hamiltonian is available, but must be properly interpreted in quantum field theory. We work inside correlation functions with spectator operators, and introduce a prescription for defining complex modular flow via analytic continuation to properly resolve singularities. From the correlators, we extract an operator expression for the modular Hamiltonian. It takes the form of a local operator in the future wedge plus contact terms with an unconventional singularity structure. Thanks to this structure the KMS conditions are satisfied, which independently establishes the validity of the results. Similar techniques apply to perturbations inserted in the past wedge. We mention various future directions, including an all-orders speculation for the excited state modular Hamiltonian.
title Modular Hamiltonians for future-perturbed states
topic High Energy Physics - Theory
url https://arxiv.org/abs/2509.18464