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RESEARCH PRODUCT
Speeding up antidynamical Casimir effect with nonstationary qutrits
A. V. DodonovBenedetto MilitelloAnna NapoliJ. J. Díaz-guevarasubject
PhysicsQuantum PhysicsPhotonFOS: Physical sciencesAtomic and Molecular Physics Optics CasimirTransition rate matrix01 natural sciences010305 fluids & plasmasCasimir effectLaser linewidthQubitQuantum electrodynamicsQuantum mechanics0103 physical sciencesQutrit010306 general physicsQuantum Physics (quant-ph)QuantumExcitationdescription
The antidynamical Casimir effect (ADCE) is a term coined to designate the coherent annihilation of excitations due to resonant external perturbation of system parameters, allowing for extraction of quantum work from nonvacuum states of some field. Originally proposed for a two-level atom (qubit) coupled to a single cavity mode in the context of nonstationary quantum Rabi model, it suffered from very low transition rate and correspondingly narrow resonance linewidth. In this paper we show analytically and numerically that the ADCE rate can be increased by at least one order of magnitude by replacing the qubit by an artificial three-level atom (qutrit) in a properly chosen configuration. For the cavity thermal state we demonstrate that the dynamics of the average photon number and atomic excitation is completely different from the qubit's case, while the behavior of the total number of excitations is qualitatively similar yet significantly faster.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-01-01 |