Parametric instability in coupled nonlinear microcavities

N. Carlon Zambon; S. R.K. Rodriguez; A. Lemaître; A. Harouri; L. Le Gratiet; I. Sagnes; P. St-Jean; S. Ravets; A. Amo; J. Bloch

doi:10.1103/PhysRevA.102.023526

Parametric instability in coupled nonlinear microcavities

N. Carlon Zambon
, S. R.K. Rodriguez
, A. Lemaître
, A. Harouri
, L. Le Gratiet
, I. Sagnes
, P. St-Jean
, S. Ravets
, A. Amo
, J. Bloch

Research output: Contribution to journal › Article › peer-review

Abstract

We report the observation of a parametric instability in the out-of-equilibrium steady state of two coupled Kerr microresonators coherently driven by a laser. Using a resonant excitation, we drive the system into an unstable regime, where we observe the appearance of intense and well-resolved sideband modes in the emission spectrum. This feature is a characteristic signature of self-sustained oscillations of the intracavity field. We comprehensively model our findings using semiclassical Langevin equations for the cavity field dynamics combined with a linear stability analysis. The inherent scalability of our semiconductor platform, enriched with a strong Kerr nonlinearity, is promising for the realization of integrated optical parametric oscillator networks.

Original language	English
Article number	023526
Journal	Physical Review A
Volume	102
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.102.023526
Publication status	Published - 1 Aug 2020
Externally published	Yes

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10.1103/PhysRevA.102.023526

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title = "Parametric instability in coupled nonlinear microcavities",

abstract = "We report the observation of a parametric instability in the out-of-equilibrium steady state of two coupled Kerr microresonators coherently driven by a laser. Using a resonant excitation, we drive the system into an unstable regime, where we observe the appearance of intense and well-resolved sideband modes in the emission spectrum. This feature is a characteristic signature of self-sustained oscillations of the intracavity field. We comprehensively model our findings using semiclassical Langevin equations for the cavity field dynamics combined with a linear stability analysis. The inherent scalability of our semiconductor platform, enriched with a strong Kerr nonlinearity, is promising for the realization of integrated optical parametric oscillator networks.",

author = "\{Carlon Zambon\}, N. and Rodriguez, \{S. R.K.\} and A. Lema{\^i}tre and A. Harouri and \{Le Gratiet\}, L. and I. Sagnes and P. St-Jean and S. Ravets and A. Amo and J. Bloch",

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doi = "10.1103/PhysRevA.102.023526",

language = "English",

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T1 - Parametric instability in coupled nonlinear microcavities

AU - Carlon Zambon, N.

AU - Rodriguez, S. R.K.

AU - Lemaître, A.

AU - Harouri, A.

AU - Le Gratiet, L.

AU - Sagnes, I.

AU - St-Jean, P.

AU - Ravets, S.

AU - Amo, A.

AU - Bloch, J.

PY - 2020/8/1

Y1 - 2020/8/1

N2 - We report the observation of a parametric instability in the out-of-equilibrium steady state of two coupled Kerr microresonators coherently driven by a laser. Using a resonant excitation, we drive the system into an unstable regime, where we observe the appearance of intense and well-resolved sideband modes in the emission spectrum. This feature is a characteristic signature of self-sustained oscillations of the intracavity field. We comprehensively model our findings using semiclassical Langevin equations for the cavity field dynamics combined with a linear stability analysis. The inherent scalability of our semiconductor platform, enriched with a strong Kerr nonlinearity, is promising for the realization of integrated optical parametric oscillator networks.

AB - We report the observation of a parametric instability in the out-of-equilibrium steady state of two coupled Kerr microresonators coherently driven by a laser. Using a resonant excitation, we drive the system into an unstable regime, where we observe the appearance of intense and well-resolved sideband modes in the emission spectrum. This feature is a characteristic signature of self-sustained oscillations of the intracavity field. We comprehensively model our findings using semiclassical Langevin equations for the cavity field dynamics combined with a linear stability analysis. The inherent scalability of our semiconductor platform, enriched with a strong Kerr nonlinearity, is promising for the realization of integrated optical parametric oscillator networks.

UR - https://www.scopus.com/pages/publications/85091818387

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DO - 10.1103/PhysRevA.102.023526

M3 - Article

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SN - 2469-9926

VL - 102

JO - Physical Review A

JF - Physical Review A

IS - 2

M1 - 023526

ER -

Parametric instability in coupled nonlinear microcavities

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