Related papers: Witnessing global memory effects of multiqubit correlated noisy channels by Hilbert-Schmidt speed

Witnessing global memory effects of multiqubit correlated noisy channels by Hilbert-Schmidt speed

URL: http://arxiv.org/abs/2501.05918v1
Date: Fri, 10 Jan 2025 12:22:58 GMT
Title: Witnessing global memory effects of multiqubit correlated noisy channels by Hilbert-Schmidt speed
Authors: Kobra Mahdavipour, Samira Nazifkar, Hossein Rangani Jahromi, Rosario Lo Franco,
Abstract summary: In correlated noisy channels, the global memory effects on the dynamics of a quantum system depend on both non-Markovianity and classical correlations. We show that the Hilbert-Schmidt speed (HSS), a measure of non-Markovianity, serves as a reliable figure of merit for evaluating the role of this correlation-based memory.
Score: 0.0
License:
Abstract: In correlated noisy channels, the global memory effects on the dynamics of a quantum system depend on both non-Markovianity of the single noisy channel (intrinsic memory) and classical correlations between multiple uses of the channel itself (correlation-based memory). We show that the Hilbert-Schmidt speed (HSS), a measure of non-Markovianity, serves as a reliable figure of merit for evaluating the role of this correlation-based memory on the global memory effects, for both unital and non-unital channels. The intensity of the correlation-based memory is ruled by a classical correlation strength between consecutive applications of the channel. We demonstrate that, for unital noisy channels, increasing the number of qubits of the system significantly weakens the sensitivity of the HSS to this classical correlation strength. Such a pattern indicates that the state evolution of large quantum systems may be less prone to be affected by classical correlations between noisy channels. Moreover, assuming the qubits are affected by independent or classically correlated local non-Markovian unital channels, we observe that, as the number of qubits increases, the collective behavior of the multiqubit system inhibits the non-Markovian features of the overall system dynamics.

Related papers

Temporally correlated quantum noise in driven quantum systems [0.0]
We develop a quantum master equation for driven systems weakly coupled to quantum environments. Our method makes it possible to track all occurring decay channels and their time-dependent generalized rates. We also demonstrate that correlated and field-dependent dissipative effects can lead to an increase in the performance of single-qubit gate operations.
arXiv Detail & Related papers (2024-10-24T13:54:37Z)
Entanglement and operator correlation signatures of many-body quantum Zeno phases in inefficiently monitored noisy systems [49.1574468325115]
The interplay between information-scrambling Hamiltonians and local continuous measurements hosts platforms for exotic measurement-induced phase transition. We identify a non-monotonic dependence on the local noise strength in both the averaged entanglement and operator correlations. The analysis of scaling with the system size in a finite length chain indicates that, at finite efficiency, this effect leads to distinct MiPTs for operator correlations and entanglement.
arXiv Detail & Related papers (2024-07-16T13:42:38Z)
From Similarity to Superiority: Channel Clustering for Time Series Forecasting [61.96777031937871]
We develop a novel and adaptable Channel Clustering Module ( CCM) CCM dynamically groups channels characterized by intrinsic similarities and leverages cluster information instead of individual channel identities. CCM can boost the performance of CI and CD models by an average margin of 2.4% and 7.2% on long-term and short-term forecasting, respectively.
arXiv Detail & Related papers (2024-03-31T02:46:27Z)
Entanglement-breaking channels are a quantum memory resource [0.0]
Entanglement-breaking channels are an important class of quantum operations noted for their ability to destroy spatial quantum correlations. We show that, in a single-system multi-time scenario, entanglement-breaking channels are still a quantum memory resource.
arXiv Detail & Related papers (2024-02-26T18:03:15Z)
Facets of correlated non-Markovian channels [1.3187011661009458]
We explore the potential memory arising from the correlated action of channels and the inherent memory due to non-Markovian dynamics. The impact of channel correlations is studied using different non-Markovianity indicators and measures. The dynamical aspects of correlated non-Markovian channels, including entanglement dynamics as well as changes in the volume of accessible states are explored.
arXiv Detail & Related papers (2024-01-10T19:00:08Z)
Engineering Transport via Collisional Noise: a Toolbox for Biology Systems [44.99833362998488]
We study a generalised XXZ model in the presence of collision noise, which allows to describe environments beyond the standard Markovian formulation. Results constitute an example of the essential building blocks for the understanding of quantum transport in noisy and warm disordered environments.
arXiv Detail & Related papers (2023-11-15T12:55:28Z)
Spatially correlated classical and quantum noise in driven qubits: The good, the bad, and the ugly [0.0]
Correlated noise across multiple qubits poses a significant challenge for achieving scalable quantum processors. We study the dynamics of driven qubits under spatially correlated noise, including both Markovian and non-Markovian noise. In particular, we reveal that, in the quantum limit, pure dephasing noise induces a coherent long-range two-qubit Ising interaction that correlates distant qubits.
arXiv Detail & Related papers (2023-08-06T08:34:49Z)
Towards realization of universal quantum teleportation using weak measurements [1.4405862891194343]
We analyze universal quantum teleportation in the presence of memory or memory-less dynamics. Our results show that the combined effects of memory or non-Markovianity and weak measurements can lead to universal quantum teleportation.
arXiv Detail & Related papers (2023-07-18T13:08:42Z)
Cross-Frequency Coupling Increases Memory Capacity in Oscillatory Neural Networks [69.42260428921436]
Cross-frequency coupling (CFC) is associated with information integration across populations of neurons. We construct a model of CFC which predicts a computational role for observed $theta - gamma$ oscillatory circuits in the hippocampus and cortex. We show that the presence of CFC increases the memory capacity of a population of neurons connected by plastic synapses.
arXiv Detail & Related papers (2022-04-05T17:13:36Z)
Learning Noise via Dynamical Decoupling of Entangled Qubits [49.38020717064383]
Noise in entangled quantum systems is difficult to characterize due to many-body effects involving multiple degrees of freedom. We develop and apply multi-qubit dynamical decoupling sequences that characterize noise that occurs during two-qubit gates.
arXiv Detail & Related papers (2022-01-26T20:22:38Z)
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)

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