Improved non-linear devices for quantum applications

TL;DR

This paper reviews current mode selective sum-frequency generation devices for quantum optics, discusses their limitations, and presents the fabrication and characterization of an improved device to advance quantum non-linear technology.

Contribution

It introduces a new, improved non-linear device for quantum applications and provides insights into fabrication quality and future development strategies.

Findings

Successful fabrication of an improved device

Enhanced performance benchmarks achieved

Identified key limitations and future directions

Abstract

In this paper, we review the state of the art of mode selective, integrated sum-frequency generation devices tailored for quantum optical technologies. We explore benchmarks to asses their performance and discuss the current limitations of these devices, outlining possible strategies to overcome them. Finally, we present the fabrication of a new, improved device and its characterization. We analyse the fabrication quality of this device and discuss the next steps towards improved non-linear devices for quantum applications.