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13 March 2023 Scalable architectures for CMOS and telecom-compatible quantum information processing
Nicola Montaut, Piotr Roztocki, Hao Yu, Mario Chemnitz, Stefania Sciara, Yoann Jestin, Benjamin MacLellan, Bennet Fischer, Michael Kues, Christian Reimer, Luis R. Cortes, Benjamin Wetzel, Yanbing Zhang, Sébastien Loranger, Raman Kashyap, Alfonso C. Cino, Sai T. Chu, Brent E. Little, David J. Moss, Lucia Caspani, William J. Munro, Jose Azana, Roberto Morandotti
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Proceedings Volume PC12426, Silicon Photonics XVIII; PC1242601 (2023) https://doi.org/10.1117/12.2654453
Event: SPIE OPTO, 2023, San Francisco, California, United States
Abstract
Quantum technologies harness nonclassical features of particles, here, photons, to develop novel, efficient, and precise devices for information processing applications. Superposition, entanglement, as well as the coherent manipulation of quantum states are at the heart of the second quantum revolution (quantum 2.0) which targets the development of secure cryptographic systems, complex computation protocols, and more. Emerging quantum architectures rely on the realistic implementation of photonic schemes which are scalable, resource-efficient, and compatible with CMOS technologies as well as fiber networks. This work demonstrates current schemes utilized for time-/frequency-bin entanglement generation and processing by leveraging existing telecommunications and integrated photonics infrastructures.
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Nicola Montaut, Piotr Roztocki, Hao Yu, Mario Chemnitz, Stefania Sciara, Yoann Jestin, Benjamin MacLellan, Bennet Fischer, Michael Kues, Christian Reimer, Luis R. Cortes, Benjamin Wetzel, Yanbing Zhang, Sébastien Loranger, Raman Kashyap, Alfonso C. Cino, Sai T. Chu, Brent E. Little, David J. Moss, Lucia Caspani, William J. Munro, Jose Azana, and Roberto Morandotti "Scalable architectures for CMOS and telecom-compatible quantum information processing", Proc. SPIE PC12426, Silicon Photonics XVIII, PC1242601 (13 March 2023); https://doi.org/10.1117/12.2654453
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KEYWORDS
Quantum information processing
Quantum communications
Quantum computing
Quantum efficiency
Semiconductor lasers
Signal to noise ratio
Silicon
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