Related papers: Dark-state engineering in Fock-state lattices

Dark-state engineering in Fock-state lattices

URL: http://arxiv.org/abs/2409.19697v1
Date: Sun, 29 Sep 2024 13:14:44 GMT
Title: Dark-state engineering in Fock-state lattices
Authors: Xuan Zhao, Yi Xu, Le-Man Kuang, Jie-Qiao Liao,
Abstract summary: We study the dark-state effect in the Fock-state lattices generated by the multimode Jaynes-Cummings (JC) models. Our work will pave the way for exploring quantum optical effects and quantum information processing based on the FSLs.
Score: 11.8951799233443
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Fock-state lattices (FSLs) are becoming an emerging research hotspot in quantum physics, not only because the FSLs provide a new perspective for studying atom-field interactions, but also because they build the connection between quantum optics and condensed matter physics. Owing to the multiple transition paths in the lattices, inherent quantum interference effect exists in these systems, and hence how to find new quantum coherent phenomena and exploit their applications becomes a significant and desired task in this field. In this work, we study the dark-state effect in the FSLs generated by the multimode Jaynes-Cummings (JC) models. By considering the FSLs in certain-excitation-number subspaces, we study the dark states with respect to the states associated with the atomic excited state using the arrowhead-matrix method. We find that there exist dark-state subspaces with the dimensions determined by the number of orthogonal dark states. When the dimension is larger than one, the forms of these dark-state bases are not unique. Further, we obtain the number and form of the orthogonal dark states in the two-, three-, and four-mode JC models. In addition, we find that for a general $N$-mode JC model, there are $C_{N+n-2}^{N-2}$ orthogonal dark states in the $n$-excitation subspace. We also build the relationship between the dark modes and dark states. Our work will pave the way for exploring quantum optical effects and quantum information processing based on the FSLs.

Related papers

Bound state of distant photons in waveguide quantum electrodynamics [137.6408511310322]
Quantum correlations between distant particles remain enigmatic since the birth of quantum mechanics. We predict a novel kind of bound quantum state in the simplest one-dimensional setup of two interacting particles in a box. Such states could be realized in the waveguide quantum electrodynamics platform.
arXiv Detail & Related papers (2023-03-17T09:27:02Z)
Realization of a fractional quantum Hall state with ultracold atoms [0.0]
Emblematic instances are fractional quantum Hall states, where the interplay of magnetic fields and strong interactions gives rise to fractionally charged quasi-particles. Here, we realize a fractional quantum Hall (FQH) state with ultracold atoms in an optical lattice.
arXiv Detail & Related papers (2022-10-19T22:48:43Z)
Dynamics of quantum double dark-solitons and an exact finite-size scaling of Bose-Einstein condensation [4.176752121302987]
We show novel aspects in the exact non-equilibrium dynamics of quantum double dark-soliton states in the Lieb-Liniger model. It is suggested that the quasi-BEC should play a significant role in the dynamics of quantum double dark-soliton states.
arXiv Detail & Related papers (2022-07-01T09:38:32Z)
Quantum optics of ultracold quantum gases: open systems beyond dissipation (habilitation thesis) [0.0]
We show that light is a quantum nondemolition probe of many-body phases. Measurement backaction is a novel source of competitions in many-body systems. We propose quantum simulators based on collective light-matter interaction.
arXiv Detail & Related papers (2022-03-28T17:38:30Z)
Quantum dark solitons in the 1D Bose gas: From single to double dark-solitons [3.170887683719515]
We study quantum double dark-solitons by constructing corresponding quantum states in the Lieb-Liniger model for the one-dimensional Bose gas. The Gross-Pitaevskii equation should play a central role in the long distance mean-field behavior of the 1D Bose gas.
arXiv Detail & Related papers (2021-11-04T08:43:30Z)
Partitioning dysprosium's electronic spin to reveal entanglement in non-classical states [55.41644538483948]
We report on an experimental study of entanglement in dysprosium's electronic spin. Our findings open up the possibility to engineer novel types of entangled atomic ensembles.
arXiv Detail & Related papers (2021-04-29T15:02:22Z)
Superposition of two-mode squeezed states for quantum information processing and quantum sensing [55.41644538483948]
We investigate superpositions of two-mode squeezed states (TMSSs) TMSSs have potential applications to quantum information processing and quantum sensing.
arXiv Detail & Related papers (2021-02-01T18:09:01Z)
Mesoscopic quantum superposition states of weakly-coupled matter-wave solitons [58.720142291102135]
We establish quantum features of an atomic soliton Josephson junction (SJJ) device. We show that the SJJ-model in quantum domain exhibits unusual features due to its effective nonlinear strength proportional to the square of total particle number. We have shown that the obtained quantum state is more resistant to few particle losses from the condensates if tiny components of entangled Fock states are present.
arXiv Detail & Related papers (2020-11-26T09:26:19Z)
Bose-Einstein condensate soliton qubit states for metrological applications [58.720142291102135]
We propose novel quantum metrology applications with two soliton qubit states. Phase space analysis, in terms of population imbalance - phase difference variables, is also performed to demonstrate macroscopic quantum self-trapping regimes.
arXiv Detail & Related papers (2020-11-26T09:05:06Z)
Quantum Zeno dynamics induced atomic entanglement in a hybrid atom-cavity-fiber system [2.332566368357145]
We propose an approach to preparing atomic quantum entanglement in a hybrid atom-cavity-fiber system. Our proposal provides a way to perform quantum information processing with dark states.
arXiv Detail & Related papers (2020-08-03T16:05:03Z)
Multidimensional dark space and its underlying symmetries: towards dissipation-protected qubits [62.997667081978825]
We show that a controlled interaction with the environment may help to create a state, dubbed as em dark'', which is immune to decoherence. To encode quantum information in the dark states, they need to span a space with a dimensionality larger than one, so different states act as a computational basis. This approach offers new possibilities for storing, protecting and manipulating quantum information in open systems.
arXiv Detail & Related papers (2020-02-01T15:57:37Z)

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