Pawel Strzebonski scite author profile

Pawel Strzebonski

4Publications

21Citation Statements Received

72Citation Statements Given

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Affiliations

University of Illinois Urbana-Champaign, II-VI (United States), University of Illinois System

Publications

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Complex Waveguide Supermode Analysis of Coherently-Coupled Microcavity Laser Arrays

Strzebonski

Choquette

2022

IEEE J. Select. Topics Quantum Electron.

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Coherently coupled microcavity lasers have desirable properties for emerging applications. We use 2-dimensional complex refractive index waveguide modeling of 2-element photonic crystal vertical cavity surface emitting laser arrays to analyze their supermodes. The complex modal effective indices are used in turn to calculate the complex coupling coefficient between the laser array elements. An analysis of the effects of array design parameters, such as photonic crystal period, fillfactor, or confinement, to engineer the coupling coefficient for the desired properties is given and example designs for 850nm arrays are presented.

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Modal characteristics of coupled vertical cavity surface emitting laser diode arrays

North

Jahan

Strzebonski

et al. 2022

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The modal characteristics of dual-element coupled vertical cavity surface emitting laser (VCSEL) arrays are analyzed numerically and experimentally. A photonic crystal pattern etched into the top mirror optically defines the two elements of the array that are independently electrically biased. Using a two-dimensional complex waveguide analysis, we incorporate the effects of varying temperature and electron plasma-induced index suppression arising from asymmetric injection. The simulations are compared to experimental characterization of output power, lasing spectra, and far-field beam profile as a function of the two independent injection currents. Three distinct operating regimes are identified for the arrays: single independent local mode; a region of two modes that are primarily localized into a specific cavity; and a region of two supermodes whose fields extend across both elements. This analysis provides a physical intuition for the behavior of the dual-element coupled VCSEL array across its full operating range for emerging applications.

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Computational methods for VCSEL array characterization and control

Strzebonski

Dave

Lakomy

et al. 2021

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Analysis of Coherence and Coupling in Vertical Cavity Surface Emitting Laser Arrays

Strzebonski

North

Jahan

et al. 2022

IEEE J. Quantum Electron.

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The optical coupling between dual elements of photonic crystal vertical cavity surface emitting laser arrays is characterized. The optically coupled microcavity lasers have independent bias injection currents. Output power and beam analysis measurements are used to quantify the effects of optical coherence in nominally 850 nm emitting arrays. Modelling and experiment show how the optical coupling is influenced by photonic crystal lattice period and the independent current injection into the elements.

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