@inproceedings{139fff6ad0414e48a28a597224e0ad27,
title = "High-Efficiency InGaP-on-Silicon Frequency Downconversion for Quantum Communication Applications at 1550 nm",
abstract = "Efficient down-conversion in InGaP-on-silicon waveguides enables single-photon conversion from 930 nm to 1550 nm (C-band), advancing scalable, CMOS-compatible quantum communication and sensing from quantum dots. This integration showcases a promising approach for high-performance, monolithically integrated quantum frequency converters in photonic platforms.",
keywords = "Difference-frequency generation, InGaP-on-insulator, Photonics, Second-harmonic generation (SHG), Sum-frequency generation, nonlinear optics, difference-frequency generation (DFG), heterogeneous integration, Quantum frequency conversion (QFC), InGaP-on-silicon",
author = "Ahler, {Lucas Christesen} and Ulsig, {Emil Zanchetta} and Stanton, {Eric J.} and Godoy, {Pedro Henrique} and Stanton, {Maiya A.} and Weight, {Skyler K.} and Leger, {Alexandre Z.} and Nima Nader and {Degli Eredi}, Iterio and Hamel, {Deny R.} and Mirin, {Richard P.} and Nick Volet",
year = "2025",
month = may,
day = "12",
doi = "10.1109/SiPhotonics64386.2025.10985391",
language = "English",
isbn = "979-8-3315-0619-3",
series = "IEEE International Conference on Group IV Photonics ",
publisher = "IEEE",
pages = "1--2",
booktitle = "2025 IEEE Silicon Photonics Conference, SiPhotonics 2025 - Proceedings",
}