4.6 Article

Light cone tensor network and time evolution

PHYSICAL REVIEW B (2022)

Related references

Note: Only part of the references are listed.
Article Physics, Multidisciplinary

Temporal Entanglement, Quasiparticles, and the Role of Interactions

Giacomo Giudice et al.

Summary: In this study, the influence of integrable interactions on the temporal entanglement (TE) behavior is investigated. It is found that, beyond the noninteracting limit, TE exhibits a logarithmic growth, violating the area law. This finding highlights the significance of interactions and raises interesting questions about efficiently simulating the local dynamics of interacting integrable systems.

PHYSICAL REVIEW LETTERS (2022)

Add to Collection
Article Materials Science, Multidisciplinary

Dissipation-assisted operator evolution method for capturing hydrodynamic transport

Tibor Rakovszky et al.

Summary: We introduce the dissipation-assisted operator evolution (DAOE) method for calculating transport properties of strongly interacting lattice systems in the high temperature regime. By applying an artificial dissipation to long operators, we are able to track the dynamics to long times and estimate the physical diffusion constant with high precision.

PHYSICAL REVIEW B (2022)

Add to Collection
Article Physics, Multidisciplinary

Influence functional of many-body systems: Temporal entanglement and matrix-product state representation

Michael Sonner et al.

Summary: The Feynman-Vernon influence functional (IF) method is introduced to study quantum many-body dynamics, treating the system as an environment for its local subsystems. The IF can be computed approximately using matrix-product states and is shown to be applicable to a wide range of dynamical behaviors. This method provides a new perspective on many-body non-equilibrium phenomena, connecting open quantum systems theory with quantum statistical physics.

ANNALS OF PHYSICS (2021)

Add to Collection
Article Physics, Multidisciplinary

Improved Thermal Area Law and Quasilinear Time Algorithm for Quantum Gibbs States

Tomotaka Kuwahara et al.

Summary: The text introduces a fundamental issue in quantum many-body physics regarding the characterization of correlations among thermal states, proposing a new thermal area law for generic many-body systems. It also discusses improvements in temperature dependence and the propagation of entanglement by imaginary-time evolution. Additionally, the text presents rigorous bounds for Renyi entanglement and entanglement of formation, along with a novel technical ingredient for constructing matrix product state representations of 1D quantum Gibbs states.

PHYSICAL REVIEW X (2021)

Add to Collection
Review Physics, Multidisciplinary

Finite-temperature transport in one-dimensional quantum lattice models

B. Bertini et al.

Summary: Significant progress has been made in the theoretical understanding of transport properties in one-dimensional quantum lattice systems in the past decade, with Bethe-ansatz integrable models and novel simulation methods playing important roles. The discovery of quasilocal conserved quantities provides insight into the origins of finite-temperature transport behavior, while state-of-the-art theoretical methods, including matrix-product-state-based simulation and generalized hydrodynamics, are discussed. The close connection between theoretical models and recent experiments, particularly in the context of quantum magnets and ultracold quantum gases in optical lattices, is also highlighted.

REVIEWS OF MODERN PHYSICS (2021)

Add to Collection
Article Chemistry, Physical

Constructing tensor network influence functionals for general quantum dynamics

Erika Ye et al.

Summary: The study introduces an iterative framework for calculating influence functionals that go beyond linear coupling to a quadratic bath to describe the general quantum dynamics of a subsystem. By using a space-time tensor network representation, the approximability of the influence functional in terms of bond dimension and time-like entanglement is investigated. Numerical models, like the spin-boson model and interacting hard-core bosons model, suggest that low bond dimension tensor networks can efficiently approximate the influence functional and its intermediates in specific dynamical regimes, allowing for accurate computation of quantum dynamics over longer times. However, correlations in the influence functional may initially increase before decreasing as one iteratively integrates out the bath, indicating non-trivial cancellation in achieving the final compressibility of the influence functional.

JOURNAL OF CHEMICAL PHYSICS (2021)

Add to Collection
Article Physics, Multidisciplinary

Influence Matrix Approach to Many-Body Floquet Dynamics

Alessio Lerose et al.

Summary: Recent works have made progress in understanding nonequilibrium phenomena in thermalizing and many-body localized systems, introducing an approach inspired by the Feynman-Vernon influence functional to study quantum many-body dynamics in interacting spin chains. The focus was on the influence matrix, self-consistency equation, perfect dephaser, and the ability to effectively treat dynamics using matrix-product states. Insights from analytical methods and MPS computations characterized the structure of the influence matrix and predictive power in determining thermalization speed of embedded impurity spins.

PHYSICAL REVIEW X (2021)

Add to Collection
Article Materials Science, Multidisciplinary

Operator front broadening in chaotic and integrable quantum chains

Javier Lopez-Piqueres et al.

Summary: Operator spreading under unitary time evolution has been studied to probe many-body quantum chaos. Both integrable and chaotic interacting spin chains show diffusive spreading of the operator front, with anomalous behavior in integrable systems. Quasiparticle picture is used to interpret the results, providing a signature of many-body quantum chaos in the operator front.

PHYSICAL REVIEW B (2021)

Add to Collection
Article Materials Science, Multidisciplinary

Scaling of temporal entanglement in proximity to integrability

Alessio Lerose et al.

Summary: In this paper, the exact influence matrix (IM) for a family of integrable Floquet models is analytically computed, revealing an area-law temporal entanglement scaling. The IM exhibits the system's phase diagram and shows nontrivial scaling behavior of temporal entanglement near criticality. Area-law temporal entanglement allows efficient description of integrability-breaking perturbations using matrix-product-state methods.

PHYSICAL REVIEW B (2021)

Add to Collection
Article Optics

Numerical simulation of quantum nonequilibrium phase transitions without finite-size effects

Edward Gillman et al.

Summary: Classical (1+1)-dimensional cellular automata are ideal for studying nonequilibrium phenomena due to their discrete time evolution and absence of time-discretization errors, allowing for accurate simulations of nonequilibrium phase transitions. Similarly, in the quantum regime, studying many-body critical dynamics using a one-dimensional, nonunitary quantum cellular automaton can lead to precise estimates of universal exponents, showcasing the potential of this approach in quantum systems.

PHYSICAL REVIEW A (2021)

Add to Collection
Article Physics, Multidisciplinary

Breaking the Entanglement Barrier: Tensor Network Simulation of Quantum Transport

Marek M. Rams et al.

PHYSICAL REVIEW LETTERS (2020)

Add to Collection
Article Materials Science, Multidisciplinary

Exact dynamics in dual-unitary quantum circuits

Lorenzo Piroli et al.

PHYSICAL REVIEW B (2020)

Add to Collection
Article Physics, Multidisciplinary

Time-evolution methods for matrix-product states

Sebastian Paeckel et al.

ANNALS OF PHYSICS (2019)

Add to Collection
Article Materials Science, Multidisciplinary

Simulating the out-of-equilibrium dynamics of local observables by trading entanglement for mixture

J. Surace et al.

PHYSICAL REVIEW B (2019)

Add to Collection
Article Physics, Multidisciplinary

Exponential Thermal Tensor Network Approach for Quantum Lattice Models

Bin-Bin Chen et al.

PHYSICAL REVIEW X (2018)

Add to Collection
Article Materials Science, Multidisciplinary

Localization with random time-periodic quantum circuits

Christoph Suenderhauf et al.

PHYSICAL REVIEW B (2018)

Add to Collection
Article Materials Science, Multidisciplinary

Quantum dynamics of thermalizing systems

Christopher David White et al.

PHYSICAL REVIEW B (2018)

Add to Collection
Article Physics, Condensed Matter

Time evolution within a comoving window: scaling of signal fronts and magnetization plateaus after a local quench in quantum spin chains

V. Zauner et al.

JOURNAL OF PHYSICS-CONDENSED MATTER (2015)

Add to Collection
Article Optics

Connecting entanglement in time and space: Improving the folding algorithm

M. B. Hastings et al.

PHYSICAL REVIEW A (2015)

Add to Collection
Article Materials Science, Multidisciplinary

Approximating Gibbs states of local Hamiltonians efficiently with projected entangled pair states

Andras Molnar et al.

PHYSICAL REVIEW B (2015)

Add to Collection
Article Physics, Multidisciplinary

A practical introduction to tensor networks: Matrix product states and projected entangled pair states

Roman Orus

ANNALS OF PHYSICS (2014)

Add to Collection
Article Physics, Multidisciplinary

Precise evaluation of thermal response functions by optimized density matrix renormalization group schemes

Thomas Barthel

NEW JOURNAL OF PHYSICS (2013)

Add to Collection
Article Materials Science, Multidisciplinary

Dynamical windows for real-time evolution with matrix product states

Ho N. Phien et al.

PHYSICAL REVIEW B (2013)

Add to Collection
Article Materials Science, Multidisciplinary

Variational matrix product ansatz for nonuniform dynamics in the thermodynamic limit

Ashley Milsted et al.

PHYSICAL REVIEW B (2013)

Add to Collection
Article Physics, Multidisciplinary

Ballistic Spreading of Entanglement in a Diffusive Nonintegrable System

Hyungwon Kim et al.

PHYSICAL REVIEW LETTERS (2013)

Add to Collection
Article Physics, Multidisciplinary

Light cone renormalization and quantum quenches in one-dimensional Hubbard models

Tilman Enss et al.

NEW JOURNAL OF PHYSICS (2012)

Add to Collection
Article Physics, Multidisciplinary

Tensor network techniques for the computation of dynamical observables in one-dimensional quantum spin systems

Alexander Mueller-Hermes et al.

NEW JOURNAL OF PHYSICS (2012)

Add to Collection
Article Physics, Multidisciplinary

Finite-Temperature Dynamical Density Matrix Renormalization Group and the Drude Weight of Spin-1/2 Chains

C. Karrasch et al.

PHYSICAL REVIEW LETTERS (2012)

Add to Collection
Article Physics, Multidisciplinary

The density-matrix renormalization group in the age of matrix product states

Ulrich Schollwoeck

ANNALS OF PHYSICS (2011)

Add to Collection
Article Physics, Multidisciplinary

Dynamical Simulation of Integrable and Nonintegrable Models in the Heisenberg Picture

Dominik Muth et al.

PHYSICAL REVIEW LETTERS (2011)

Add to Collection
Article Physics, Multidisciplinary

Strong and Weak Thermalization of Infinite Nonintegrable Quantum Systems

M. C. Banuls et al.

PHYSICAL REVIEW LETTERS (2011)

Add to Collection
Article Physics, Multidisciplinary

Concatenated tensor network states

R. Huebener et al.

NEW JOURNAL OF PHYSICS (2010)

Add to Collection
Article Physics, Multidisciplinary

Matrix product operator representations

B. Pirvu et al.

NEW JOURNAL OF PHYSICS (2010)

Add to Collection
Article Physics, Multidisciplinary

Density dynamics from current auto-correlations at finite time- and length-scales

R. Steinigeweg et al.

EPL (2009)

Add to Collection
Article Physics, Mathematical

Light-cone matrix product

M. B. Hastings

JOURNAL OF MATHEMATICAL PHYSICS (2009)

Add to Collection
Article Physics, Multidisciplinary

Density Matrix Renormalization Group in the Heisenberg Picture

Michael J. Hartmann et al.

PHYSICAL REVIEW LETTERS (2009)

Add to Collection
Article Physics, Multidisciplinary

Matrix Product States for Dynamical Simulation of Infinite Chains

M. C. Banuls et al.

PHYSICAL REVIEW LETTERS (2009)

Add to Collection
Article Physics, Condensed Matter

Matrix product states, projected entangled pair states, and variational renormalization group methods for quantum spin systems

F. Verstraete et al.

ADVANCES IN PHYSICS (2008)

Add to Collection
Article Physics, Multidisciplinary

Entropy scaling and simulability by matrix product states

Norbert Schuch et al.

PHYSICAL REVIEW LETTERS (2008)

Add to Collection
Article Physics, Multidisciplinary

Classical simulation of infinite-size quantum lattice systems in one spatial dimension

G. Vidal

PHYSICAL REVIEW LETTERS (2007)

Add to Collection
Article Physics, Multidisciplinary

Efficient approximation of the dynamics of one-dimensional quantum spin systems

Tobias J. Osborne

PHYSICAL REVIEW LETTERS (2006)

Add to Collection
Article Physics, Mathematical

Spectral gap and exponential decay of correlations

MB Hastings et al.

COMMUNICATIONS IN MATHEMATICAL PHYSICS (2006)

Add to Collection
Article Physics, Mathematical

Lieb-Robinson bounds and the exponential clustering theorem

Bruno Nachtergaele et al.

COMMUNICATIONS IN MATHEMATICAL PHYSICS (2006)

Add to Collection
Article Materials Science, Multidisciplinary

Solving gapped hamiltonians locally

MB Hastings

PHYSICAL REVIEW B (2006)

Add to Collection
Article Materials Science, Multidisciplinary

Finite-temperature density matrix renormalization using an enlarged Hilbert space

AE Feiguin et al.

PHYSICAL REVIEW B (2005)

Add to Collection
Article Mechanics

Evolution of entanglement entropy in one-dimensional systems

P Calabrese et al.

JOURNAL OF STATISTICAL MECHANICS-THEORY AND EXPERIMENT (2005)

Add to Collection
Article Physics, Multidisciplinary

Efficient simulation of one-dimensional quantum many-body systems

G Vidal

PHYSICAL REVIEW LETTERS (2004)

Add to Collection
Article Physics, Multidisciplinary

Density matrix renormalization group and periodic boundary conditions: A quantum information perspective

F Verstraete et al.

PHYSICAL REVIEW LETTERS (2004)

Add to Collection
Article Physics, Multidisciplinary

Matrix product density operators:: Simulation of finite-temperature and dissipative systems -: art. no. 207204

F Verstraete et al.

PHYSICAL REVIEW LETTERS (2004)

Add to Collection
Article Physics, Multidisciplinary

Mixed-state dynamics in one-dimensional quantum lattice systems: A time-dependent superoperator renormalization algorithm

M Zwolak et al.

PHYSICAL REVIEW LETTERS (2004)

Add to Collection
Article Physics, Multidisciplinary

Efficient classical simulation of slightly entangled quantum computations

G Vidal

PHYSICAL REVIEW LETTERS (2003)

Add to Collection
Webinars Posters Questions Hubs Funding Journals Papers Connect Collections Reviewers About Us FAQs Mobile App Privacy Policy Terms of Use
© Peeref 2019-2024. All rights reserved.