Supersymmetry-guided method for mode selection and optimization in coupled systems

TL;DR

This paper introduces a supersymmetry-based method for mode selection in coupled optical systems, enabling significant enhancement of desired mode lifetimes and the ability to select multiple modes in complex arrays.

Contribution

It presents a novel supersymmetry-guided approach for mode suppression and optimization in coupled systems, improving mode lifetime control and multi-mode selection capabilities.

Findings

Achieved a ten-fold increase in fundamental mode lifetime in 1D arrays.

Demonstrated mode selection in 1D and 2D coupled arrays.

Provided a systematic method for optimizing coupled system parameters.

Abstract

Single-mode operation of coupled systems such as optical-fiber bundles, lattices of photonic waveguides, or laser arrays requires an efficient method to suppress unwanted super-modes. Here, we propose a systematic supersymmetry-based approach to selectively eliminate modes of such systems by decreasing their lifetime relative to the lifetime of the mode of interest. The proposed method allows to explore the opto-geometric parameters of the coupled system and to maximize the relative lifetime of a selected mode. We report a ten-fold increase in the relative lifetime of the fundamental modes of large one-dimensional coupled arrays in comparison to simple 'head-to-tail' coupling geometries. The ability to select multiple supported modes in one- and two-dimensional arrays is also demonstrated.