# Super-directional light emission and emission reversal from micro cavity   arrays

**Authors:** Jakob Kreismann, Jaewon Kim, Mart\'i Bosch, Matthias Hein, Stefan, Sinzinger, Martina Hentschel

arXiv: 1903.07935 · 2019-12-18

## TL;DR

This paper explores how arrays of asymmetric microdisk cavities can produce highly directional and reversible light emission, with potential applications in photonics, by analyzing their coherent coupling effects.

## Contribution

It introduces a generalized array model for coupled microresonators and demonstrates emission directionality control through array configuration and inter-cavity distance.

## Key findings

- Emission directionality increases with array size.
- Angular spread reduces from 20° to 3° in arrays.
- Emission reversal windows are observed with varying inter-cavity distance.

## Abstract

Optical microdisk cavities with certain asymmetric shapes are known to possess unidirectional far-field emission properties. Here, we investigate arrays of these dielectric microresonators with respect to their emission properties resulting from the coherent behaviour of the coupled constituents. This approach is inspired by electronic mesoscopic physics where the additional interference effects are known to enhance the properties of the individual system. As an example we study the linear arrangement of nominally identical Lima\c{c}on-shaped cavities and find mostly an increase of the portion of directional emitted light while its angular spread is largely diminished from 20 degrees for the single cavity to about 3 degrees for a linear array of 10 Lima\c{c}on resonators, in fair agreement with a simple array model. Moreover, by varying the inter-cavity distance we observe windows of reversion of the emission directionality and super-directionality that can be interesting for applications. We introduce a generalized array factor model that takes the coupling into account.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1903.07935/full.md

## References

27 references — full list in the complete paper: https://tomesphere.com/paper/1903.07935/full.md

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Source: https://tomesphere.com/paper/1903.07935