Enhancing nonclassical bosonic correlations in a Quantum Walk network through experimental control of disorder

• URL: http://arxiv.org/abs/2102.04755v1
• Date: Tue, 9 Feb 2021 10:57:00 GMT
• Title: Enhancing nonclassical bosonic correlations in a Quantum Walk network through experimental control of disorder
• Authors: Alessandro Laneve, Farzam Nosrati, Andrea Geraldi, Kobra Mahdavipour, Federico Pegoraro, Mahshid Khazaei Shadfar, Rosario Lo Franco, Paolo Mataloni
• Abstract summary: We experimentally realize a controllable inhomogenous Quantum Walk dynamics. We observe two photon states which exhibit an enhancement in the quantum correlations between two modes of the network.
• Score: 50.591267188664666
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The presence of disorder and inhomogeneities in quantum networks has often been unexpectedly beneficial for both quantum and classical resources. Here, we experimentally realize a controllable inhomogenous Quantum Walk dynamics, which can be exploited to investigate the effect of coherent disorder on the quantum correlations between two indistinguishable photons. Through the imposition of suitable disorder configurations, we observe two photon states which exhibit an enhancement in the quantum correlations between two modes of the network, compared to the case of an ordered Quantum Walk. Different configurations of disorder can steer the system towards different realizations of such an enhancement, thus allowing spatial and temporal manipulation of quantum correlations.

Related papers

• Speeding up Quantum Annealing with Engineered Dephasing [0.0]
  We show that engineered dephasing can enhance the adiabaticity of controlled quantum dynamics. We discuss the experimental feasibility of the protocols, and investigate the trade-off between fidelity and implementability.
  arXiv  Detail & Related papers  (2024-09-24T09:18:02Z)
• Nonlinear dynamical Casimir effect and Unruh entanglement in waveguide QED with parametrically modulated coupling [83.88591755871734]
  We study theoretically an array of two-level qubits moving relative to a one-dimensional waveguide. When the frequency of this motion approaches twice the qubit resonance frequency, it induces parametric generation of photons and excitation of the qubits. We develop a comprehensive general theoretical framework that incorporates both perturbative diagrammatic techniques and a rigorous master-equation approach.
  arXiv  Detail & Related papers  (2024-08-30T15:54:33Z)
• Amplification of quantum transfer and quantum ratchet [56.47577824219207]
  We study a model of amplification of quantum transfer and making it directed which we call the quantum ratchet model. The ratchet effect is achieved in the quantum control model with dissipation and sink, where the Hamiltonian depends on vibrations in the energy difference synchronized with transitions between energy levels. Amplitude and frequency of the oscillating vibron together with the dephasing rate are the parameters of the quantum ratchet which determine its efficiency.
  arXiv  Detail & Related papers  (2023-12-31T14:04:43Z)
• Diagnosing Quantum Phases Using Long-Range Two-Site Quantum Resource Behaviors [0.16777183511743465]
  We show that the behaviors of long-range, two-site quantum resources can effectively diagnose quantum phases. In particular, we discover the quantum resource freezing phenomenon, where topologically protected long-range quantum resources may have potential applications in quantum information processing.
  arXiv  Detail & Related papers  (2023-11-08T08:00:32Z)
• Coherently excited nonlocal quantum features using polarization-frequency correlation via a quantum eraser [0.0]
  Indistinguishability is an essential concept to understanding mysterious quantum features in the view point of the wave-particle duality of quantum mechanics. Here, a pure coherence approach is applied to the nonlocal correlation using coherent photons manipulated for polarization-frequency correlation. The mysterious quantum feature of nonlocal correlation is now coherently understood and may open the door to macroscopic quantum information processing.
  arXiv  Detail & Related papers  (2022-06-09T03:43:01Z)
• Exploring quantum correlations in a hybrid optomechanical system [0.0]
  We propose a scheme of two coupled optomechanical cavities to enhance the intracavity entanglement. Photon hopping is employed to establish couplings between optical modes, while phonon is utilized to establish couplings between mechanical tunneling resonators.
  arXiv  Detail & Related papers  (2022-04-16T08:47:50Z)
• Quantum fluctuations and correlations in open quantum Dicke models [0.0]
  In the vicinity of ground-state phase transitions quantum correlations can display non-analytic behavior and critical scaling. Here we consider as a paradigmatic setting the superradiant phase transition of the open quantum Dicke model. We show that local dissipation, which cannot be treated within the commonly employed Holstein-Primakoff approximation, rather unexpectedly leads to an enhancement of collective quantum correlations.
  arXiv  Detail & Related papers  (2021-10-25T18:15:05Z)
• Observation-dependent suppression and enhancement of two-photon coincidences by tailored losses [68.8204255655161]
  Hong-Ou-Mandel (HOM) effect can lead to a perfect suppression of two-particle coincidences between the output ports of a balanced beam splitter. In this work, we demonstrate experimentally that the two-particle coincidence statistics of two bosons can instead be seamlessly tuned to substantial enhancement. Our findings reveal a new approach to harnessing non-Hermitian settings for the manipulation of multi-particle quantum states.
  arXiv  Detail & Related papers  (2021-05-12T06:47:35Z)
• 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.