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Photonic quantum technologies are a promising platform for a large variety of applications ranging from secure long-distance communications to the simulation of complex phenomena. Among the material platforms under study, semiconductors offer a wide range of functionalities opening several opportunities for the development of integrated quantum photonic circuits. AlGaAs is particularly attractive to monolithically integrate active and passive components since it combines high second order nonlinearity, electro-optic effect and direct bandgap. In this talk, I will present the work of our team on the generation of quantum states of light in the telecom range with nonlinear AlGaAs chips working at room temperature. The talk will review recent developments on monolithic and hybrid integrated devices, describe the versatility of these systems for the generation and manipulation of quantum frequency states and show their potential for the implementation of flexible entanglement-distribution networks for secure communications.
Sara Ducci
"Nonlinear integrated quantum optics with AlGaAs", Proc. SPIE PC12570, Quantum Optics and Photon Counting 2023, PC1257001 (9 June 2023); https://doi.org/10.1117/12.2675326
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Sara Ducci, "Nonlinear integrated quantum optics with AlGaAs," Proc. SPIE PC12570, Quantum Optics and Photon Counting 2023, PC1257001 (9 June 2023); https://doi.org/10.1117/12.2675326