Maximally entangled Rydberg-atom pairs via Landau-Zener sweeps

• URL: http://arxiv.org/abs/2302.05408v1
• Date: Fri, 10 Feb 2023 18:22:56 GMT
• Title: Maximally entangled Rydberg-atom pairs via Landau-Zener sweeps
• Authors: Dhiya Varghese, Sebastian W\"uster, Weibin Li, and Rejish Nath
• Abstract summary: We analyze the formation of maximally entangled Rydberg atom pairs subjected to Landau-Zener sweeps of the atom-light detuning. Our study may offer novel ways to generate maximally entangled states, quantum gates and exotic quantum matter in arrays of Rydberg atoms through Landau Zener sweeps.
• Score: 1.3124513975412255
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We analyze the formation of maximally entangled Rydberg atom pairs subjected to Landau-Zener sweeps of the atom-light detuning. Though the populations reach a steady value at longer times, the phases evolve continuously, leading to periodic oscillations in the entanglement entropy. The local unitary equivalence between the obtained maximally entangled states and the Bell states is verified by computing the polynomial invariants. Finally, we study the effect of spontaneous emission from the Rydberg state of rubidium atoms on the correlation dynamics and show that the oscillatory dynamics persists for high-lying Rydberg states. Our study may offer novel ways to generate maximally entangled states, quantum gates and exotic quantum matter in arrays of Rydberg atoms through Landau Zener sweeps.

Related papers

• Observation of electric field induced superradiance slowdown in ultracold Rydberg atomic gases [0.4169767831866066]
  Atoms excited to electronically high-lying Rydberg states decay to low-energy states through spontaneous emission processes. We report experimental observations of a significant slowdown in superradiance upon applying an electric field. Our numerical simulations demonstrate that superradiance decoherence is caused by the Stark shifts of the Rydberg level.
  arXiv  Detail & Related papers  (2024-08-22T10:04:55Z)
• Measurement phase transitions in the no-click limit as quantum phase transitions of a non-hermitean vacuum [77.34726150561087]
  We study phase transitions occurring in the stationary state of the dynamics of integrable many-body non-Hermitian Hamiltonians. We observe that the entanglement phase transitions occurring in the stationary state have the same nature as that occurring in the vacuum of the non-hermitian Hamiltonian.
  arXiv  Detail & Related papers  (2023-01-18T09:26:02Z)
• Correlated steady states and Raman lasing in continuously pumped and probed atomic ensembles [68.8204255655161]
  We consider an ensemble of Alkali atoms that are continuously optically pumped and probed. Due to the collective scattering of photons at large optical depth, the steady state of atoms does not correspond to an uncorrelated tensor-product state. We find and characterize regimes of Raman lasing, akin to the model of a superradiant laser.
  arXiv  Detail & Related papers  (2022-05-10T06:54:54Z)
• Accessing the topological Mott insulator in cold atom quantum simulators with realistic Rydberg dressing [58.720142291102135]
  We investigate a realistic scenario for the quantum simulation of such systems using cold Rydberg-dressed atoms in optical lattices. We perform a detailed analysis of the phase diagram at half- and incommensurate fillings, in the mean-field approximation. We furthermore study the stability of the phases with respect to temperature within the mean-field approximation.
  arXiv  Detail & Related papers  (2022-03-28T14:55:28Z)
• Spontaneous decay induced quantum dynamics in Rydberg blockaded {\Lambda}-type atoms [0.0]
  Rydberg-blockaded two-level atoms form a Rydberg superatom. spontaneous decay from the Rydberg state to an additional pooling state renders the ensemble no longer a closed superatom. We present a computationally-efficient model to characterize the interaction between a fully Rydberg-blockaded ensemble of $N$ $Lambda$-type three-level atoms.
  arXiv  Detail & Related papers  (2021-12-18T11:01:32Z)
• Microscopic dynamics and an effective Landau-Zener transition in the quasi-adiabatic preparation of spatially ordered states of Rydberg excitations [0.0]
  We study the adiabatic preparation of spatially-ordered Rydberg excitations of atoms in finite one-dimensional lattices by frequency-chirped laser pulses. Our aims are to unravel the microscopic mechanism of the phase transition from the unexcited state of atoms to the antiferromagnetic-like state of Rydberg excitations.
  arXiv  Detail & Related papers  (2021-11-29T14:32:30Z)
• Anderson localization of a Rydberg electron [68.8204255655161]
  Rydberg atoms inherit their level structure, symmetries, and scaling behavior from the hydrogen atom. limit is reached by simultaneously increasing the number of ground state atoms and the level of excitation of the Rydberg atom.
  arXiv  Detail & Related papers  (2021-11-19T18:01:24Z)
• Dynamics of atoms within atoms [0.0]
  We study the quantum-many-body dynamics of atoms moving within the Rydberg atom. Our simulations focus in particular on the scenario of multiple sequential Rydberg excitations on the same Rubidium condensate.
  arXiv  Detail & Related papers  (2021-11-09T10:16:49Z)
• Population trapping in a pair of periodically driven Rydberg atoms [1.3124513975412255]
  We study the population trapping extensively in a periodically driven Rydberg pair. We identify a simple yet a general scheme to determine population trapping regions.
  arXiv  Detail & Related papers  (2020-09-21T17:07:57Z)
• Rydberg Entangling Gates in Silicon [62.997667081978825]
  We propose a new Rydberg entangling gate scheme which we demonstrate theoretically to have an order of magnitude improvement in fidelities and speed over existing protocols. We find that applying this gate to donors in silicon would help overcome the strenuous requirements on atomic precision donor placement and substantial gate tuning. We show that Rydberg gate operation is possible within the lifetime of donor excited states with 99.9% fidelity for the creation of a Bell state in the presence of decoherence.
  arXiv  Detail & Related papers  (2020-08-26T18:00:02Z)
• High-Fidelity Entanglement and Detection of Alkaline-Earth Rydberg Atoms [48.093689931392866]
  Controlled two-qubit entanglement generation has so far been limited to alkali species. We demonstrate a novel approach utilizing the two-valence electron structure of individual alkaline-earth Rydberg atoms. We find fidelities for Rydberg state detection, single-atom Rabi operations, and two-atom entanglement surpassing previously published values.
  arXiv  Detail & Related papers  (2020-01-13T18:42:42Z)

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.