# On-Chip Integrated Quantum-Dot Silicon-Nitride Microdisk Lasers

**Authors:** Weiqiang Xie, Thilo St\"oferle, Gabriele Rain\`o, Tangi Aubert,, Suzanne Bisschop, Yunpeng Zhu, Rainer F. Mahrt, Pieter Geiregat, Edouard, Brainis, Zeger Hens, and Dries Van Thourhout

arXiv: 1901.06227 · 2019-01-21

## TL;DR

This paper demonstrates hybrid silicon nitride-quantum dot microlasers with record low threshold, offering stable operation and potential applications in optical communication and quantum optics.

## Contribution

Introduces a novel design and processing scheme for SiN-QD microlasers enabling long-term stability and detailed characterization.

## Key findings

- Record low threshold density of 27 μJ/cm²
- Stable operation over long periods
- Potential for integration in quantum optics applications

## Abstract

Hybrid SiN-QD microlasers coupled to a passive SiN output waveguide with 7{\mu}m diameter and record low threshold density of 27 {\mu}J cm-2 are demonstrated. A new design and unique processing scheme starting from SiN/QD/SiN stacks offer long term stability and facilitate in depth laser characterization. This approach opens up new paths for optical communication, lab-on-a-chip, gas sensing and, potentially, on-chip cavity quantum electrodynamics and quantum optics.

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Source: https://tomesphere.com/paper/1901.06227