Related papers: Universal Thermal Corrections to Symmetry-Resolved Entanglement Entropy and Full Counting Statistics

Universal Thermal Corrections to Symmetry-Resolved Entanglement Entropy and Full Counting Statistics

URL: http://arxiv.org/abs/2203.06708v2
Date: Wed, 12 Oct 2022 07:07:17 GMT
Title: Universal Thermal Corrections to Symmetry-Resolved Entanglement Entropy and Full Counting Statistics
Authors: Mostafa Ghasemi
Abstract summary: We consider two-dimensional conformal field theories on a circle at nonzero temperature. We calculate the leading corrections to the contributions of individual charge sectors in a low-temperature expansion. We explicitly evaluate the thermal corrections to the symmetry-resolved entanglement entropy and FCS for the spinless fermions.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We consider the symmetry-resolved R\'{e}nyi and entanglement entropies for two-dimensional conformal field theories on a circle at nonzero temperature. We assume a unique ground state with a nonzero mass gap induced by the system's finite size and then calculate the leading corrections to the contributions of individual charge sectors in a low-temperature expansion. Besides the size of the mass gap and the degeneracy of the first excited state, these universal corrections depend only on the four-point correlation function of the primary fields. We also obtain thermal corrections to the full counting statistics of the ground state and define the \textit{probability fluctuations} function. It scales as $e^{-2 \pi \Delta_{\psi} \beta /L}$, where $\Delta_{\psi}$ is the scaling dimension of the lowest weight states. As an example, we explicitly evaluate the thermal corrections to the symmetry-resolved entanglement entropy and FCS for the spinless fermions.

Related papers

Thermalization in Trapped Bosonic Systems With Disorder [3.1457219084519004]
We study experimentally accessible states in a system of bosonic atoms trapped in an open linear chain with disorder. We find that, within certain tolerances, most states in the chaotic region thermalize. However, states with low participation ratios in the energy eigenstate basis show greater deviations from thermal equilibrium values.
arXiv Detail & Related papers (2024-07-05T19:00:02Z)
Measurement-induced phase transition for free fermions above one dimension [46.176861415532095]
Theory of the measurement-induced entanglement phase transition for free-fermion models in $d>1$ dimensions is developed. Critical point separates a gapless phase with $elld-1 ln ell$ scaling of the second cumulant of the particle number and of the entanglement entropy.
arXiv Detail & Related papers (2023-09-21T18:11:04Z)
Entanglement phase transition due to reciprocity breaking without measurement or post-selection [59.63862802533879]
EPT occurs for a system undergoing purely unitary evolution. We analytically derive the entanglement entropy out of and at the critical point for the $l=1$ and $l/N ll 1$ case.
arXiv Detail & Related papers (2023-08-28T14:28:59Z)
Fluctuations in the Entropy of Hawking Radiation [0.0]
We use the gravitational path integral (GPI) to compute the fluctuations of the Hawking radiation entropy around the Page curve. The discrepancy can be attributed to the fact that the black hole Hilbert space dimension is not fixed by the state preparation.
arXiv Detail & Related papers (2023-07-26T02:40:40Z)
Entanglement resolution of free Dirac fermions on a torus [68.8204255655161]
We first evaluate the SRE for massless Dirac fermions in a system at finite temperature and size. The charge-dependent entropies turn out to be equally distributed among all the symmetry sectors at leading order.
arXiv Detail & Related papers (2022-12-14T14:54:35Z)
Entanglement Entropy of Non-Hermitian Free Fermions [59.54862183456067]
We study the entanglement properties of non-Hermitian free fermionic models with translation symmetry. Our results show that the entanglement entropy has a logarithmic correction to the area law in both one-dimensional and two-dimensional systems.
arXiv Detail & Related papers (2021-05-20T14:46:09Z)
Uhlmann Fidelity and Fidelity Susceptibility for Integrable Spin Chains at Finite Temperature: Exact Results [68.8204255655161]
We show that the proper inclusion of the odd parity subspace leads to the enhancement of maximal fidelity susceptibility in the intermediate range of temperatures. The correct low-temperature behavior is captured by an approximation involving the two lowest many-body energy eigenstates.
arXiv Detail & Related papers (2021-05-11T14:08:02Z)
Entanglement renormalization of thermofield double states [3.245401968358883]
Entanglement renormalization is a method for coarse-graining a quantum state in real space. We find an analytically exact renormalization circuit for finite temperature two-dimensional toric code which maps it to a coarse-grained system with a renormalized higher temperature. We apply this scheme to one-dimensional free boson models at a finite temperature and find that the thermofield double corresponding to the critical thermal state is described by a numerically Lifshitz theory.
arXiv Detail & Related papers (2021-04-01T18:00:01Z)
Exact thermal properties of free-fermionic spin chains [68.8204255655161]
We focus on spin chain models that admit a description in terms of free fermions. Errors stemming from the ubiquitous approximation are identified in the neighborhood of the critical point at low temperatures.
arXiv Detail & Related papers (2021-03-30T13:15:44Z)
Finite-size corrections in critical symmetry-resolved entanglement [0.0]
We show that the nature of the symmetry group plays a crucial role in symmetry-resolved entanglement entropies. In the case of a discrete symmetry group, the corrections decay algebraically with system size, with exponents related to the operators' scaling dimensions. In contrast, in the case of a U(1) symmetry group, the corrections only decay logarithmically with system size, with model-dependent prefactors.
arXiv Detail & Related papers (2020-10-20T12:18:26Z)

This list is automatically generated from the titles and abstracts of the papers in this site.