SPATIAL CONTROL OF LOCALIZED OSCILLATIONS IN ARRAYS OF COUPLED LASER DIMERS

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Date

2020

Authors

Shena, Joniald
Kominis, Yannis
Bountis, Anastasios
Kovanis, Vassilios

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Publisher

PHYSICAL REVIEW E

Abstract

Arrays of coupled semiconductor lasers are systems possessing radically complex dynamics that makes them useful for numerous applications in beam forming and beam shaping. In this work, we investigate the spatial controllability of oscillation amplitudes in an array of coupled photonic dimers, each consisting of two semiconductor lasers driven by differential pumping rates. We consider parameter values for which each dimer’s stable phase-locked state has become unstable through a Hopf bifurcation and we show that, by assigning appropriate pumping rate values to each dimer, high-amplitude oscillations coexist with negligibly low amplitude oscillations. The spatial profile of the amplitude of oscillations across the array can be dynamically controlled by appropriate pumping rate values in each dimer. This feature is shown to be quite robust, even for random detuning between the lasers, and suggests a mechanism for dynamically reconfigurable production of a large diversity of spatial profiles of laser amplitude oscillations

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Type of access: Open Access, arrays

Citation

Shena, J., Kominis, Y., Bountis, A., & Kovanis, V. (2020). Spatial control of localized oscillations in arrays of coupled laser dimers. Physical Review E, 102(1). https://doi.org/10.1103/physreve.102.012201

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