Enhancement of Entanglement via Josephson Parametric Amplifier in a Dual Cavity-Magnon System

• URL: http://arxiv.org/abs/2402.16042v1
• Date: Sun, 25 Feb 2024 09:48:04 GMT
• Title: Enhancement of Entanglement via Josephson Parametric Amplifier in a Dual Cavity-Magnon System
• Authors: Abdelkader Hidki, Abderrahim Lakhfif, Mostafa Nassik, Rizwan Ahmed, and Amjad Sohail
• Abstract summary: We describe a method to produce multipartite entanglement and quantum steering in two microwave cavities. For current dual cavity-magnon system, two-way quantum steering is found when the optomagnonical couplings are equal.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: In the two microwave (MW) cross-shaped cavity magnon system, we describe a method to produce multipartite entanglement and quantum steering. To achieve squeezed states of the magnons, a Josephson parametric amplifier (JPA) creates a squeezed vacuum field that drives the two cavities. We theoretically demonstrate that the cavity-cavity entanglement can be generated at the resonance point, however, increasing the cavity and magnon decay rates generate the cavity-magnon entanglement. By changing the squeezing parameter and increasing the decay rates, we can transfer the cavity-cavity entanglement to cavity-magnon entanglement. Furthermore, the cavity-cavity entanglement (survive up to 2.8K) not only found to be much stronger but also more robust as compared to cavity-magnon entanglement (survive up to 0.4K). More importantly, the genuine photon-magnon-photon tripartite entanglement could be achieved, which is robust against the thermal fluctuations and depends strongly on squeezing parameter. Furthermore, for current dual cavity-magnon system, two-way quantum steering is found when the optomagnonical couplings are equal. The current study offers a straightforward and practical method for achieving multipartite quantum correlations.

Related papers

• Photon Generation in Double Superconducting Cavities: Quantum Circuits Implementation [41.94295877935867]
  We studied photon generation due to the Dynamical Casimir Effect (DCE) in a one dimensional (1+1) double superconducting cavity. The total length of the double cavity $L$, the difference in length between the two cavities $Delta L$, and the electric susceptibility $chi$ are tunable parameters.
  arXiv  Detail & Related papers  (2024-07-19T14:33:45Z)
• Enhanced bipartite entanglement and Gaussian quantum steering of squeezed magnon modes [0.0]
  We investigate a scheme to entangle two squeezed magnon modes in a double cavitymagnon system, where both cavities are driven by a two-mode squeezed vacuum microwave field. We have obtained optimal parameter regimes for achieving the strong magnon-magnon entanglement and also studied the effectiveness of this scheme towards the mismatch of both the cavity-magnon couplings and decay parameters.
  arXiv  Detail & Related papers  (2023-07-19T09:07:01Z)
• Dissipative stabilization of maximal entanglement between non-identical emitters via two-photon excitation [49.1574468325115]
  Two non-identical quantum emitters, when placed within a cavity and coherently excited at the two-photon resonance, can reach stationary states of nearly maximal entanglement. We show that this mechanism is merely one among a complex family of phenomena that can generate both stationary and metastable entanglement when driving the emitters at the two-photon resonance.
  arXiv  Detail & Related papers  (2023-06-09T16:49:55Z)
• Phase-controlled improvement of photon lifetime in coupled superconducting cavities [44.62134010977906]
  We find that by coupling two cavities directly or via a phase-tunable coupling channel, the photon lifetime of the local field can exceed that of the bare cavities. In experiments, by coupling superconducting radio-frequency cavities via phase-tunable cables, we realize a factor of two improvement in the cavity photon lifetime.
  arXiv  Detail & Related papers  (2023-05-25T02:15:27Z)
• Magnon squeezing by two-tone driving of a qubit in cavity-magnon-qubit systems [7.123040671954896]
  We propose a scheme for preparing magnon squeezed states in a hybrid cavity-magnon-qubit system. The generated squeezed states are of a magnon mode involving more than $1018$ spins and thus macroscopic quantum states.
  arXiv  Detail & Related papers  (2023-04-21T06:09:13Z)
• Enhancing the detection sensitivity of magnon Kerr nonlinearity via coherent perfect absorption around an exceptional point in cavity magnonics [6.228244997069861]
  We show how to enhance the detection sensitivity of magnon Kerr nonlinearity (MKN) in cavity magnonics. The considered cavity-magnon system consists of a three-dimensional microwave cavity containing two yttrium iron garnet (YIG) spheres.
  arXiv  Detail & Related papers  (2022-11-16T14:12:14Z)
• Quantum vibrational mode in a cavity confining a massless spinor field [91.3755431537592]
  We analyse the reaction of a massless (1+1)-dimensional spinor field to the harmonic motion of one cavity wall. We demonstrate that the system is able to convert bosons into fermion pairs at the lowest perturbative order.
  arXiv  Detail & Related papers  (2022-09-12T08:21:12Z)
• Photon generation and entanglement in a double superconducting cavity [105.54048699217668]
  We study the dynamical Casimir effect in a double superconducting cavity in a quantum electrodynamics architecture. We study the creation of photons when the walls oscillate harmonically with a small amplitude.
  arXiv  Detail & Related papers  (2022-07-18T16:43:47Z)
• Squeezed driving induced entanglement and squeezing among cavity modes and magnon mode in a magnon-cavity QED system [7.780531445879181]
  We propose a scheme to generate entanglement between two cavity modes and squeeze magnon mode in a magnon-cavity QED system. The nonlinearity used in our system originates from a squeezed driving via parametric down-conversion process. We show that it is a good way to enhance entanglement and squeezing by increasing the nonlinear gain coefficient of squeezed driving.
  arXiv  Detail & Related papers  (2022-01-23T01:14:37Z)
• Hybrid quantum photonics based on artificial atoms placed inside one hole of a photonic crystal cavity [47.187609203210705]
  Hybrid quantum photonics with SiV$-$-containing nanodiamonds inside one hole of a one-dimensional, free-standing, Si$_3$N$_4$-based photonic crystal cavity is presented. The resulting photon flux is increased by more than a factor of 14 as compared to free-space. Results mark an important step to realize quantum network nodes based on hybrid quantum photonics with SiV$-$- center in nanodiamonds.
  arXiv  Detail & Related papers  (2020-12-21T17:22:25Z)

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.