Impact of cavity geometry on microlaser dynamics

We experimentally investigate spatiotemporal lasing dynamics in semiconductor microcavities with various geometries, featuring integrable or chaotic ray dynamics. The classical ray dynamics directly impacts the lasing dynamics, which is primarily determined by the local directionality of long-lived...

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Bibliographic Details
Main Authors:	Kim, Kyungduk, Bittner, Stefan, Jin, Yuhao, Zeng, Yongquan, Wang, Qi Jie, Cao, Hui
Other Authors:	School of Electrical and Electronic Engineering
Format:	Article
Language:	English
Published:	2024
Subjects:	Engineering Cavity geometry Chaotic ray dynamics
Online Access:	https://hdl.handle.net/10356/173992
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Institution:	Nanyang Technological University
Language:	English

Description
Summary:	We experimentally investigate spatiotemporal lasing dynamics in semiconductor microcavities with various geometries, featuring integrable or chaotic ray dynamics. The classical ray dynamics directly impacts the lasing dynamics, which is primarily determined by the local directionality of long-lived ray trajectories. The directionality of optical propagation dictates the characteristic length scales of intensity variations, which play a pivotal role in nonlinear light-matter interactions. While wavelength-scale intensity variations tend to stabilize lasing dynamics, modulation on much longer scales causes spatial filamentation and irregular pulsation. Our results will pave the way to control the lasing dynamics by engineering the cavity geometry and ray dynamical properties.

Impact of cavity geometry on microlaser dynamics

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