Monolithically integrated circuits for Optical injection locking of ring   lasers with QKD and QPSK applications

Damiano Massella; Michael Wallace; Ronald Broeke; and Francisco Diaz

arXiv:2301.03684·physics.optics·January 11, 2023

Monolithically integrated circuits for Optical injection locking of ring lasers with QKD and QPSK applications

Damiano Massella, Michael Wallace, Ronald Broeke, and Francisco Diaz

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TL;DR

This paper demonstrates monolithically integrated circuits that achieve optical injection locking of ring lasers, providing experimental validation crucial for advancing quantum key distribution and coherent communication technologies.

Contribution

The paper presents the first experimental realization of monolithically integrated circuits for optical injection locking of ring lasers, enabling practical applications in quantum and classical communications.

Findings

01

Successful experimental demonstration of injection locking in integrated ring lasers

02

Potential for integration into quantum key distribution systems

03

Advancement towards practical coherent communication devices

Abstract

Optical injection locking of integrated ring lasers promises to be a key technology of the future, but it is still lacking experimental verification. In this paper we present two monolithically integrated photonic circuits that experimentally realize Optically injection locking of ring lasers. The presented circuits pave the way for future application in Quantum Key Distribution and coherent communication

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Taxonomy

TopicsAdvanced Fiber Laser Technologies · Semiconductor Lasers and Optical Devices · Photonic and Optical Devices