Related papers: Protecting Hilbert space fragmentation through quantum Zeno dynamics

Protecting Hilbert space fragmentation through quantum Zeno dynamics

URL: http://arxiv.org/abs/2305.06371v2
Date: Fri, 26 May 2023 15:54:54 GMT
Title: Protecting Hilbert space fragmentation through quantum Zeno dynamics
Authors: Pranay Patil, Ayushi Singhania, and Jad C. Halimeh
Abstract summary: We show the experimentally feasible viability of quantum Zeno dynamics in the protection of quantum information against thermalization. Our work demonstrates the experimentally feasible viability of quantum Zeno dynamics in the protection of quantum information against thermalization.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Hilbert space fragmentation is an intriguing paradigm of ergodicity breaking in interacting quantum many-body systems with applications to quantum information technology, but it is usually adversely compromised in the presence of perturbations. In this work, we demonstrate the protection of constrained dynamics arising due to a combination of mirror symmetry and Hilbert space fragmentation by employing the concept of quantum Zeno dynamics. We focus on an Ising spin ladder with carefully chosen quantum fluctuations, which in the ideal case guarantee a perfect disentanglement under Hamiltonian dynamics for a large class of initial conditions. This is known to be a consequence of the interplay of Hilbert space fragmentation with a mirror symmetry, and we show numerically the effect of breaking the latter. To evince the power of this perfect disentanglement, we study the effect of generic perturbations around the fine-tuned model, and show that we can protect against the undesirable growth of entanglement entropy by using a local Ising interaction on the rungs of the ladder. This allows us to suppress the entanglement entropy to an \textit{arbitrarily} small value for an \textit{arbitrarily} long time by controlling the strength of the rung interaction. Our work demonstrates the experimentally feasible viability of quantum Zeno dynamics in the protection of quantum information against thermalization.

Related papers

Quantum coarsening and collective dynamics on a programmable quantum simulator [27.84599956781646]
We experimentally study collective dynamics across a (2+1)D Ising quantum phase transition. By deterministically preparing and following the evolution of ordered domains, we show that the coarsening is driven by the curvature of domain boundaries. We quantitatively explore these phenomena and further observe long-lived oscillations of the order parameter, corresponding to an amplitude (Higgs) mode.
arXiv Detail & Related papers (2024-07-03T16:29:12Z)
Dynamical signatures of non-Markovianity in a dissipative-driven qubit [0.0]
We investigate signatures of non-Markovianity in the dynamics of a periodically-driven qubit coupled to a bosonic environment. Non-Markovian features are quantified by comparing on an equal footing the predictions from diverse and complementary approaches to quantum dissipation.
arXiv Detail & Related papers (2024-01-17T15:58:50Z)
Variational quantum simulation using non-Gaussian continuous-variable systems [39.58317527488534]
We present a continuous-variable variational quantum eigensolver compatible with state-of-the-art photonic technology. The framework we introduce allows us to compare discrete and continuous variable systems without introducing a truncation of the Hilbert space.
arXiv Detail & Related papers (2023-10-24T15:20:07Z)
Quantum Metrology Protected by Hilbert Space Fragmentation [0.0]
coherent quantum dynamics employing the Hilbert-space fragmentation (HSF) We show that the emergent HSF caused by strong Ising interactions enables us to design a stable state where part of the spins is effectively decoupled from the rest of the system. Using the decoupled spins as a probe to measure a transverse field, we demonstrate that the Heisenberg limited sensitivity is achieved without suffering from thermalization.
arXiv Detail & Related papers (2022-11-17T14:51:22Z)
Hilbert space fragmentation and slow dynamics in particle-conserving quantum East models [0.0]
We introduce a hitherto unexplored family of kinetically constrained models featuring a conserved particle number. We reproduce the logarithmic dynamics observed in the quantum case using a classically simulable cellular automaton.
arXiv Detail & Related papers (2022-10-27T16:50:27Z)
Localization and melting of interfaces in the two-dimensional quantum Ising model [0.0]
We study the non-equilibrium evolution of coexisting ferromagnetic domains in the two-dimensional quantum Ising model. We demonstrate that the quantum-fluctuating interface delimiting a large bubble can be studied as an effective one-dimensional system.
arXiv Detail & Related papers (2022-03-17T17:48:51Z)
Many-body Hilbert space scarring on a superconducting processor [19.205729719781548]
Quantum many-body scarring (QMBS) is a recently discovered form of weak ergodicity breaking in strongly-interacting quantum systems. Here, we experimentally realize a distinct kind of QMBS phenomena by approximately decoupling a part of the many-body Hilbert space in the computational basis. Our experimental findings broaden the realm of QMBS mechanisms and pave the way to exploiting correlations in QMBS states for applications in quantum information technology.
arXiv Detail & Related papers (2022-01-10T16:33:38Z)
Unification of Random Dynamical Decoupling and the Quantum Zeno Effect [68.8204255655161]
We show that the system dynamics under random dynamical decoupling converges to a unitary with a decoupling error that characteristically depends on the convergence speed of the Zeno limit. This reveals a unification of the random dynamical decoupling and the quantum Zeno effect.
arXiv Detail & Related papers (2021-12-08T11:41:38Z)
Sensing quantum chaos through the non-unitary geometric phase [62.997667081978825]
We propose a decoherent mechanism for sensing quantum chaos. The chaotic nature of a many-body quantum system is sensed by studying the implications that the system produces in the long-time dynamics of a probe coupled to it.
arXiv Detail & Related papers (2021-04-13T17:24:08Z)
Controlling many-body dynamics with driven quantum scars in Rydberg atom arrays [41.74498230885008]
We experimentally investigate non-equilibrium dynamics following rapid quenches in a many-body system composed of 3 to 200 strongly interacting qubits in one and two spatial dimensions. We discover that scar revivals can be stabilized by periodic driving, which generates a robust subharmonic response akin to discrete time-crystalline order.
arXiv Detail & Related papers (2020-12-22T19:00:02Z)
Universal Error Bound for Constrained Quantum Dynamics [0.0]
We establish an observable-based error bound for a constrained-dynamics approximation in generic gapped quantum systems. Our work establishes a universal and rigorous result concerning nonequilibrium quantum dynamics.
arXiv Detail & Related papers (2020-01-03T06:25:03Z)

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