A solvable class of non-Markovian quantum multipartite dynamics
- URL: http://arxiv.org/abs/2107.01692v1
- Date: Sun, 4 Jul 2021 17:35:45 GMT
- Title: A solvable class of non-Markovian quantum multipartite dynamics
- Authors: Adri\'an A. Budini and Juan P. Garrahan
- Abstract summary: We study a class of multipartite open quantum dynamics for systems of arbitrary number of qubits.
The non-Markovian quantum master equation can involve arbitrary single or multipartite and time-dependent dissipative coupling mechanisms.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We study a class of multipartite open quantum dynamics for systems of
arbitrary number of qubits. The non-Markovian quantum master equation can
involve arbitrary single or multipartite and time-dependent dissipative
coupling mechanisms, expressed in terms of strings of Pauli operators. We
formulate the general constraints that guarantee the complete positivity of
this dynamics. We characterize in detail underlying mechanisms that lead to
memory effects, together with properties of the dynamics encoded in the
associated system rates. We specifically derive multipartite "eternal"
non-Markovian master equations that we term hyperbolic and trigonometric due to
the time dependence of their rates. For these models we identify a transition
between positive and periodically divergent rates. We also study non-Markovian
effects through an operational (measurement-based) memory witness approach.
Related papers
- Efficiency of Dynamical Decoupling for (Almost) Any Spin-Boson Model [44.99833362998488]
We analytically study the dynamical decoupling of a two-level system coupled with a structured bosonic environment.
We find sufficient conditions under which dynamical decoupling works for such systems.
Our bounds reproduce the correct scaling in various relevant system parameters.
arXiv Detail & Related papers (2024-09-24T04:58:28Z) - Markovian dynamics for a quantum/classical system and quantum trajectories [0.0]
We develop a general approach to the dynamics of quantum/classical systems.
An important feature is that, if the interaction allows for a flow of information from the quantum component to the classical one, necessarily the dynamics is dissipative.
arXiv Detail & Related papers (2024-03-24T08:26:54Z) - Quantum fluctuation dynamics of open quantum systems with collective
operator-valued rates, and applications to Hopfield-like networks [0.0]
We consider a class of open quantum many-body systems that evolves in a Markovian fashion, the dynamical generator being in GKS-Lindblad form.
Focusing on the dynamics emerging in the limit of infinitely large systems, we build on the exactness of the mean-field equations for the dynamics of average operators.
In this framework, we derive the dynamics of quantum fluctuation operators, that can be used in turn to understand the fate of quantum correlations in the system.
arXiv Detail & Related papers (2024-02-01T17:23:32Z) - 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) - Quantum kernels for classifying dynamical singularities in a multiqubit system [0.0]
We use quantum Kernels to classify dynamical singularities of the rate function for a multiqubit system.
Our results show that this quantum dynamical critical problem can be efficiently solved using physically inspiring quantum Kernels.
arXiv Detail & Related papers (2023-10-06T15:01:37Z) - Mean-field dynamics of open quantum systems with collective
operator-valued rates: validity and application [0.0]
We consider a class of open quantum many-body Lindblad dynamics characterized by an all-to-all coupling Hamiltonian.
We study the time evolution in the limit of infinitely large systems, and we demonstrate the exactness of the mean-field equations for the dynamics of average operators.
Our results allow for a rigorous and systematic investigation of the impact of quantum effects on paradigmatic classical models.
arXiv Detail & Related papers (2023-02-08T15:58:39Z) - Decimation technique for open quantum systems: a case study with
driven-dissipative bosonic chains [62.997667081978825]
Unavoidable coupling of quantum systems to external degrees of freedom leads to dissipative (non-unitary) dynamics.
We introduce a method to deal with these systems based on the calculation of (dissipative) lattice Green's function.
We illustrate the power of this method with several examples of driven-dissipative bosonic chains of increasing complexity.
arXiv Detail & Related papers (2022-02-15T19:00:09Z) - Preserving quantum correlations and coherence with non-Markovianity [50.591267188664666]
We demonstrate the usefulness of non-Markovianity for preserving correlations and coherence in quantum systems.
For covariant qubit evolutions, we show that non-Markovianity can be used to preserve quantum coherence at all times.
arXiv Detail & Related papers (2021-06-25T11:52:51Z) - Continuous-time dynamics and error scaling of noisy highly-entangling
quantum circuits [58.720142291102135]
We simulate a noisy quantum Fourier transform processor with up to 21 qubits.
We take into account microscopic dissipative processes rather than relying on digital error models.
We show that depending on the dissipative mechanisms at play, the choice of input state has a strong impact on the performance of the quantum algorithm.
arXiv Detail & Related papers (2021-02-08T14:55:44Z) - Information Scrambling in Computationally Complex Quantum Circuits [56.22772134614514]
We experimentally investigate the dynamics of quantum scrambling on a 53-qubit quantum processor.
We show that while operator spreading is captured by an efficient classical model, operator entanglement requires exponentially scaled computational resources to simulate.
arXiv Detail & Related papers (2021-01-21T22:18:49Z) - Quantum Non-equilibrium Many-Body Spin-Photon Systems [91.3755431537592]
dissertation concerns the quantum dynamics of strongly-correlated quantum systems in out-of-equilibrium states.
Our main results can be summarized in three parts: Signature of Critical Dynamics, Driven Dicke Model as a Test-bed of Ultra-Strong Coupling, and Beyond the Kibble-Zurek Mechanism.
arXiv Detail & Related papers (2020-07-23T19:05:56Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.