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Rényi entropies for one-dimensional quantum systems with mixed boundary conditions
by Benoit Estienne, Yacine Ikhlef, Andrei Rotaru
Submission summary
| Authors (as registered SciPost users): | Andrei Rotaru |
| Submission information | |
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| Preprint Link: | scipost_202509_00025v1 (pdf) |
| Date accepted: | Sept. 23, 2025 |
| Date submitted: | Sept. 11, 2025, 3:33 p.m. |
| Submitted by: | Andrei Rotaru |
| Submitted to: | SciPost Physics |
| Ontological classification | |
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| Academic field: | Physics |
| Specialties: |
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| Approach: | Theoretical |
Abstract
We present a general method for calculating R\'enyi entropies in the ground state of a one-dimensional critical system with mixed open boundaries, for an interval starting at one of its ends. In the conformal field theory framework, this computation boils down to the evaluation of the correlation function of one twist field and two boundary condition changing operators in the cyclic orbifold. Exploiting null-vectors of the cyclic orbifold, we derive ordinary differential equations satisfied by these correlation functions. In particular, we obtain an explicit expression for the second R\'enyi entropy valid for any diagonal minimal model, but with a particular set of mixed boundary conditions. In order to compare our results with numerical data for the Ising and three-state Potts critical chains, we also identify and compute the leading finite size corrections.
Author indications on fulfilling journal expectations
- Provide a novel and synergetic link between different research areas.
- Open a new pathway in an existing or a new research direction, with clear potential for multi-pronged follow-up work
- Detail a groundbreaking theoretical/experimental/computational discovery
- Present a breakthrough on a previously-identified and long-standing research stumbling block
Published as SciPost Phys. 19, 119 (2025)