Related papers: Flow Equations for Disordered Floquet Systems

Flow Equations for Disordered Floquet Systems

URL: http://arxiv.org/abs/2009.03186v4
Date: Thu, 24 Jun 2021 12:05:19 GMT
Title: Flow Equations for Disordered Floquet Systems
Authors: S. J. Thomson, D. Magano and M. Schir\'o
Abstract summary: We present a new approach to disordered, periodically driven (Floquet) quantum many-body systems based on flow equations. We compute the emergent Floquet local integrals of motion that characterise a periodically driven many-body localized phase.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this work, we present a new approach to disordered, periodically driven (Floquet) quantum many-body systems based on flow equations. Specifically, we introduce a continuous unitary flow of Floquet operators in an extended Hilbert space, whose fixed point is both diagonal and time-independent, allowing us to directly obtain the Floquet modes. We first apply this method to a periodically driven Anderson insulator, for which it is exact, and then extend it to driven many-body localized systems within a truncated flow equation ansatz. In particular we compute the emergent Floquet local integrals of motion that characterise a periodically driven many-body localized phase. We demonstrate that the method remains well-controlled in the weakly-interacting regime, and allows us to access larger system sizes than accessible by numerically exact methods, paving the way for studies of two-dimensional driven many-body systems.

Related papers

Semi-supervised Learning of Partial Differential Operators and Dynamical Flows [68.77595310155365]
We present a novel method that combines a hyper-network solver with a Fourier Neural Operator architecture. We test our method on various time evolution PDEs, including nonlinear fluid flows in one, two, and three spatial dimensions. The results show that the new method improves the learning accuracy at the time point of supervision point, and is able to interpolate and the solutions to any intermediate time.
arXiv Detail & Related papers (2022-07-28T19:59:14Z)
A matrix product operator approach to non-equilibrium Floquet steady states [0.0]
We present a numerical method to simulate non-equilibrium Floquet steady states of one-dimensional periodically-driven (Floquet) many-body systems coupled to a dissipative bath.
arXiv Detail & Related papers (2022-06-15T18:11:27Z)
Floquet-induced localization in long-range many-body systems [0.0]
Floquet dynamics can induce many-body localization in a clean long-range system. Our mechanism shows more local power than conventional static disorder methods.
arXiv Detail & Related papers (2022-01-11T00:35:58Z)
Signatures of clean phases in many-body localized quantum circuits [0.0]
Many-body phenomena far from equilibrium present challenges beyond reach by classical computational resources. Digital quantum computers provide a possible way forward but noise limits their use in the near-term. We propose a scheme to simulate and characterize many-body Floquetsystems.
arXiv Detail & Related papers (2021-12-07T19:00:01Z)
Following Floquet states in high-dimensional Hilbert spaces [0.0]
A strategy is proposed for following a Floquet state in response to small changes of a given system's Hamiltonian. An iterative algorithm is established which enables one to compute individual Floquet states even for many-body systems with high-dimensional Hilbert spaces.
arXiv Detail & Related papers (2021-11-25T10:13:32Z)
Non-diagonal Lindblad master equations in quantum reservoir engineering [0.0]
We present a set of dynamical equations for the first and second moments of canonical variables for bosonic and fermionic linear Gaussian systems. Our method is efficient and allows one to obtain analytical solutions for the steady state. Our exploration yields a surprising byproduct: the Duan criterion, commonly applied to bosonic systems for verification of entanglement, is found to be equally valid for fermionic systems.
arXiv Detail & Related papers (2021-11-07T09:55:04Z)
Deep Learning Approximation of Diffeomorphisms via Linear-Control Systems [91.3755431537592]
We consider a control system of the form $dot x = sum_i=1lF_i(x)u_i$, with linear dependence in the controls. We use the corresponding flow to approximate the action of a diffeomorphism on a compact ensemble of points.
arXiv Detail & Related papers (2021-10-24T08:57:46Z)
Engineering, control and longitudinal readout of Floquet qubits [105.9098786966493]
Time-periodic Hamiltonians can be exploited to increase the dephasing time of qubits and to design protected one and two-qubit gates. Here, we use the framework of many-mode Floquet theory to describe approaches to robustly control Floquet qubits in the presence of multiple drive tones. Following the same approach, we introduce a longitudinal readout protocol to measure the Floquet qubit without the need of first adiabatically mapping back the Floquet states to the static qubit states.
arXiv Detail & Related papers (2021-08-25T14:35:02Z)
High-frequency expansions for time-periodic Lindblad generators [68.8204255655161]
Floquet engineering of isolated systems is often based on the concept of the effective time-independent Floquet Hamiltonian. We show that the emerging non-Markovianity of the Floquet generator can entirely be attributed to the micromotion of the open driven system.
arXiv Detail & Related papers (2021-07-21T12:48:39Z)
Continuous and time-discrete non-Markovian system-reservoir interactions: Dissipative coherent quantum feedback in Liouville space [62.997667081978825]
We investigate a quantum system simultaneously exposed to two structured reservoirs. We employ a numerically exact quasi-2D tensor network combining both diagonal and off-diagonal system-reservoir interactions with a twofold memory for continuous and discrete retardation effects. As a possible example, we study the non-Markovian interplay between discrete photonic feedback and structured acoustic phononovian modes, resulting in emerging inter-reservoir correlations and long-living population trapping within an initially-excited two-level system.
arXiv Detail & Related papers (2020-11-10T12:38:35Z)
Dissipative flow equations [62.997667081978825]
We generalize the theory of flow equations to open quantum systems focusing on Lindblad master equations. We first test our dissipative flow equations on a generic matrix and on a physical problem with a driven-dissipative single fermionic mode.
arXiv Detail & Related papers (2020-07-23T14:47:17Z)

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