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Main Authors: Sugiura, Sho, Demler, Eugene A., Lukin, Mikhail, Podolsky, Daniel
Format: Preprint
Published: 2019
Subjects:
Online Access:https://arxiv.org/abs/1910.03582
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author Sugiura, Sho
Demler, Eugene A.
Lukin, Mikhail
Podolsky, Daniel
author_facet Sugiura, Sho
Demler, Eugene A.
Lukin, Mikhail
Podolsky, Daniel
contents We introduce a new theoretical approach for analyzing pump and probe experiments in non-linear acousto-optic systems. In our approach, the effect of coherently pumped polaritons is modeled as providing time-periodic modulation of the system parameters. Within this framework, propagation of the probe pulse is described by the Floquet version of Maxwell's equations and leads to such phenomena as frequency mixing and resonant parametric production of polariton pairs. We analyze light reflection from a slab of insulating material with a strongly excited phonon-polariton mode and obtain analytic expressions for the frequency-dependent reflection coefficient for the probe pulse. Our results are in agreement with recent experiments by Cartella et al. which demonstrated light amplification in resonantly excited SiC insulator. We show that, beyond a critical pumping strength, such systems should exhibit Floquet parametric instability, which corresponds to resonant scattering of the pump polaritons into pairs of finite momentum polaritons. We find that the parametric instability should be achievable in SiC using current experimental techniques and discuss its signatures, including the non-analytic frequency dependence of the reflection coefficient and the probe pulse afterglow. We discuss possible applications of the parametric instability phenomenon and suggest that similar types of instabilities can be present in other photoexcited non-linear systems.
format Preprint
id arxiv_https___arxiv_org_abs_1910_03582
institution arXiv
publishDate 2019
record_format arxiv
spellingShingle Resonantly enhanced polariton wave mixing and Floquet parametric instability
Sugiura, Sho
Demler, Eugene A.
Lukin, Mikhail
Podolsky, Daniel
Optics
Materials Science
We introduce a new theoretical approach for analyzing pump and probe experiments in non-linear acousto-optic systems. In our approach, the effect of coherently pumped polaritons is modeled as providing time-periodic modulation of the system parameters. Within this framework, propagation of the probe pulse is described by the Floquet version of Maxwell's equations and leads to such phenomena as frequency mixing and resonant parametric production of polariton pairs. We analyze light reflection from a slab of insulating material with a strongly excited phonon-polariton mode and obtain analytic expressions for the frequency-dependent reflection coefficient for the probe pulse. Our results are in agreement with recent experiments by Cartella et al. which demonstrated light amplification in resonantly excited SiC insulator. We show that, beyond a critical pumping strength, such systems should exhibit Floquet parametric instability, which corresponds to resonant scattering of the pump polaritons into pairs of finite momentum polaritons. We find that the parametric instability should be achievable in SiC using current experimental techniques and discuss its signatures, including the non-analytic frequency dependence of the reflection coefficient and the probe pulse afterglow. We discuss possible applications of the parametric instability phenomenon and suggest that similar types of instabilities can be present in other photoexcited non-linear systems.
title Resonantly enhanced polariton wave mixing and Floquet parametric instability
topic Optics
Materials Science
url https://arxiv.org/abs/1910.03582