Externally controlled Lotka-Volterra dynamics in a linearly polarized polariton fluid

Pukrop, Matthias; Schumacher, Stefan

doi:10.1103/physreve.101.012207

Cited by 2 publications

(2 citation statements)

References 33 publications

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“…Equations (3a) and (3b), which are decoupled from the phase dynamics, have previously been theoretically studied in the context of mode competition in polariton condensates [30,31]. They represent the competitive Lotka-Volterra equations, and as such describe competition between two interacting species populations [32], as well as the competition between two laser modes [33].…”

Section: Ii1 Competition Of Two Condensate Modesmentioning

confidence: 99%

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

et al. 2020

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We demonstrate a regime in which matter-wave condensates of exciton-polaritons trapped in an elliptically shaped two-dimensional potential appear as a coherent mixture of ground and first-excited state of the quantum harmonic oscillator. This system resembles an optically controllable two-level system and produces near terahertz harmonic oscillations of the condensate's center of mass along the major axis of the elliptical trapping potential. The population ratio between the two trap levels is tunable through the excitation laser power and is shown to follow Lotka-Volterra dynamics. Furthermore, we demonstrate coherence formation between two spatially displaced trapped condensate oscillators -the polaritonic analogue of Huygen's clock synchronization for coupled condensate oscillators.

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Section: Ii1 Competition Of Two Condensate Modesmentioning

confidence: 99%

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

et al. 2020

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show abstract

“…Equations ( 3a) and (3b), which are decoupled from the phase dynamics, have previously been theoretically studied in the context of mode competition in polariton condensates [24,25]. They represent the competitive Lotka-Volterra equations, and as such describe competition between two interacting species populations [26], as well as the competition between two laser modes [27].…”

Section: Ii1 Competition Of Two Condensate Modesmentioning

confidence: 99%

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

Töpfer,

Sigurdsson,

Alyatkin

et al. 2020

Preprint

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We demonstrate a regime in which matter-wave condensates of exciton-polaritons trapped in an elliptically shaped two-dimensional potential appear as a coherent mixture of ground and firstexcited state of the quantum harmonic oscillator. This system resembles an optically controllable two-level system and produces near terahertz harmonic oscillations of the condensate's center of mass along the major axis of the elliptical trapping potential. The population ratio between the two trap levels is tunable through the excitation laser power and is shown to follow Lotka-Volterra dynamics. We demonstrate coherence formation between two spatially displaced trapped condensate oscillators -the polaritonic analogue of Huygen's clock synchronization for coupled condensate oscillators.

show abstract

Externally controlled Lotka-Volterra dynamics in a linearly polarized polariton fluid

Cited by 2 publications

References 33 publications

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

Lotka-Volterra population dynamics in coherent and tunable oscillators of trapped polariton condensates

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