Dynamics of a Nonlinear Quantum Oscillator Under Non-Markovian Pumping

We consider dynamics of a quantum nonlinear oscillator subjected to non-Markovian pumping. Models of this kind can describe formation of exciton-polariton Bose–Einstein condensates in course of stimulated scattering and relaxation of reservoir excitons. Using the Markovian embedding techniques, we o...

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Bibliographic Details
Published in:Journal of Russian laser research 2022, Vol.43 (1), p.71-81
Main Authors: Alliluev, Aleksei D., Makarov, Denis V.
Format: Article
Language:English
Subjects:
Bose-Einstein condensates
Differential equations
Equations of motion
Excitons
Lasers
Microwaves
Nonlinear dynamics
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
Polaritons
Pumping
RF and Optical Engineering
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Summary:We consider dynamics of a quantum nonlinear oscillator subjected to non-Markovian pumping. Models of this kind can describe formation of exciton-polariton Bose–Einstein condensates in course of stimulated scattering and relaxation of reservoir excitons. Using the Markovian embedding techniques, we obtain stochastic differential equations of motion with an additional degree of freedom corresponding to dynamical memory. We show that the oscillator asymptotically tends to the intrinsically non-Markovian stable fixed point corresponding to constant product of oscillator amplitude and modulo of the memory variable. The state corresponding to this point exhibits unlimited growth of population, with the growth rate that decreases with time. Our results show that the Markovian behavior could be observed only within some limited early stage of the oscillator evolution provided that decay of dynamical memory is sufficiently fast. Transition from the Markovian regime to non-Markovian one with increasing time is linked to the phase shift of the pumping term. We study the coherence properties of the oscillator and find that interaction between particles delimits growth of the condensate population, thereby impeding formation of the Bose–Einstein condensate.
ISSN:1071-2836
1573-8760
DOI:10.1007/s10946-022-10024-7