Related papers: Probing topological entanglement on large scales

Probing topological entanglement on large scales

URL: http://arxiv.org/abs/2408.12645v1
Date: Thu, 22 Aug 2024 18:00:01 GMT
Title: Probing topological entanglement on large scales
Authors: Robert Ott, Torsten V. Zache, Nishad Maskara, Mikhail D. Lukin, Peter Zoller, Hannes Pichler,
Abstract summary: Topologically ordered quantum matter exhibits intriguing long-range patterns of entanglement, which reveal themselves in subsystem entropies. We propose a protocol based on local adiabatic deformations of the Hamiltonian which extracts the universal features of long-range entanglement.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Topologically ordered quantum matter exhibits intriguing long-range patterns of entanglement, which reveal themselves in subsystem entropies. However, measuring such entropies, which can be used to certify topological order, on large partitions is challenging and becomes practically unfeasible for large systems. We propose a protocol based on local adiabatic deformations of the Hamiltonian which extracts the universal features of long-range topological entanglement from measurements on small subsystems of finite size, trading an exponential number of measurements against a polynomial-time evolution. Our protocol is general and readily applicable to various quantum simulation architectures. We apply our method to various string-net models representing both abelian and non-abelian topologically ordered phases, and illustrate its application to neutral atom tweezer arrays with numerical simulations.

Related papers

Efficient computation of topological order [0.0]
We analyze the computational aspects of detecting topological order in a quantum many-body system. We find exponential scaling with system size for the former and scaling for the latter. Our strategy can be readily generalized to higher dimensions and systems out of equilibrium.
arXiv Detail & Related papers (2024-09-19T12:30:27Z)
Gaussian Entanglement Measure: Applications to Multipartite Entanglement of Graph States and Bosonic Field Theory [50.24983453990065]
An entanglement measure based on the Fubini-Study metric has been recently introduced by Cocchiarella and co-workers. We present the Gaussian Entanglement Measure (GEM), a generalization of geometric entanglement measure for multimode Gaussian states. By providing a computable multipartite entanglement measure for systems with a large number of degrees of freedom, we show that our definition can be used to obtain insights into a free bosonic field theory.
arXiv Detail & Related papers (2024-01-31T15:50:50Z)
Many-body entropies and entanglement from polynomially-many local measurements [0.26388783516590225]
We show that efficient estimation strategies exist under the assumption that all the spatial correlation lengths are finite. We argue that our method could be practically useful to detect bipartite mixed-state entanglement for large numbers of qubits available in today's quantum platforms.
arXiv Detail & Related papers (2023-11-14T12:13:15Z)
Enhanced Entanglement in the Measurement-Altered Quantum Ising Chain [46.99825956909532]
Local quantum measurements do not simply disentangle degrees of freedom, but may actually strengthen the entanglement in the system. This paper explores how a finite density of local measurement modifies a given state's entanglement structure.
arXiv Detail & Related papers (2023-10-04T09:51:00Z)
Realizing the entanglement Hamiltonian of a topological quantum Hall system [10.092164351939825]
Topological quantum many-body systems, such as Hall insulators, are characterized by a hidden order encoded in the entanglement between their constituents. Entanglement entropy, an experimentally accessible single number that globally quantifies entanglement, has been proposed as a first signature of topological order. We use a synthetic dimension, encoded in the electronic spin of dysprosium atoms, to implement spatially deformed Hall systems.
arXiv Detail & Related papers (2023-07-12T15:40:06Z)
Entanglement entropy of higher rank topological phases [0.0]
We study entanglement entropy of unusual $mathbbZ_N$ topological stabilizer codes which admit fractional excitations with restricted mobility constraint. It is widely known that the sub-leading term of the entanglement entropy of a disk geometry in conventional topologically ordered phases is related to the total number of the quantum dimension of the fractional excitations.
arXiv Detail & Related papers (2023-02-22T16:06:01Z)
Topological multi-mode waveguide QED [49.1574468325115]
We show how to take advantage of topologically protected propagating modes by interfacing them with quantum emitters. Such capabilities pave the way for generating quantum gates among topologically protected photons as well as generating more complex entangled states of light in topological channels.
arXiv Detail & Related papers (2022-07-05T14:48:50Z)
Measurement as a shortcut to long-range entangled quantum matter [0.0]
We introduce three classes of local adaptive circuits that enable low-depth preparation of long-range entangled quantum matter. A large class of topological orders, including chiral topological order, can be prepared in constant depth or time. A large class of CFT states and non-abelian topological orders with both solvable and non-solvable groups can be prepared in depth scaling logarithmically with system size.
arXiv Detail & Related papers (2022-06-27T18:00:01Z)
Neural-Network Quantum States for Periodic Systems in Continuous Space [66.03977113919439]
We introduce a family of neural quantum states for the simulation of strongly interacting systems in the presence of periodicity. For one-dimensional systems we find very precise estimations of the ground-state energies and the radial distribution functions of the particles. In two dimensions we obtain good estimations of the ground-state energies, comparable to results obtained from more conventional methods.
arXiv Detail & Related papers (2021-12-22T15:27:30Z)
Generalized quantum measurements with matrix product states: Entanglement phase transition and clusterization [58.720142291102135]
We propose a method for studying the time evolution of many-body quantum lattice systems under continuous and site-resolved measurement. We observe a peculiar phenomenon of measurement-induced particle clusterization that takes place only for frequent moderately strong measurements, but not for strong infrequent measurements.
arXiv Detail & Related papers (2021-04-21T10:36:57Z)
Probing chiral edge dynamics and bulk topology of a synthetic Hall system [52.77024349608834]
Quantum Hall systems are characterized by the quantization of the Hall conductance -- a bulk property rooted in the topological structure of the underlying quantum states. Here, we realize a quantum Hall system using ultracold dysprosium atoms, in a two-dimensional geometry formed by one spatial dimension. We demonstrate that the large number of magnetic sublevels leads to distinct bulk and edge behaviors.
arXiv Detail & Related papers (2020-01-06T16:59:08Z)

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