Simulation of nonlinear polariton dynamics in microcavity wires for polaritonic integrated circuits
2017 International Conference on Numerical Simulation of Optoelectronic Devices (NUSOD)(2017)
摘要
We have developed a model of the nonlinear polariton dynamics in realistic strongly-coupled 3D non-planar microcavity wires based on driven-disspative mean-field Gross-Pitaevskii equations. We find that the typical microcavity nonlinear optical bistability response evolves into multistability upon variation of realistic model parameters and discuss its origin in terms of multiple co-existing transverse cavity modes. Conditions for formation of self-assembled lossless multimode pulses: polariton solitons, and geometry limitations for their stable propagation are identified.
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关键词
nonlinear polariton dynamics,polaritonic integrated circuits,3D nonplanar microcavity wires,realistic model parameters,polariton solitons,driven-dissipattive mean-field Gross-Pitaevskii equations,microcavity nonlinear optical bistability,multistability,multiple co-existing transverse cavity modes,self-assembled lossless multimode pulses,stable propagation
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