Kanitschar, F. P., Bergmayr-Mann, A. E., Matej Pivoluska, & Huber, M. (2024). Harnessing high-dimensional temporal entanglement using limited interferometric setups. Physical Review Applied, 22, 1–18. https://doi.org/10.1103/PhysRevApplied.22.054054
E141-08 - Forschungsbereich Quantum Optics and Quantum Information
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Journal:
Physical Review Applied
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ISSN:
2331-7019
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Date (published):
20-Nov-2024
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Number of Pages:
18
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Publisher:
AMER PHYSICAL SOC
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Peer reviewed:
Yes
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Keywords:
Quantum Key Distribution; Quantum Communication; Quantum Technology; Quantum Information
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Abstract:
High-dimensional entanglement has been shown to provide significant advantages in quantum communication. One of its most promising implementations is available in the time domain routinely produced in spontaneous parametric down-conversion . While advantageous in the sense that only a single detector channel is needed locally, it is notoriously hard to analyze, especially in an assumption-free manner as required for quantum key distribution (QKD) applications. We develop a complete analysis of high-dimensional entanglement in the polarization-time domain and show how to efficiently certify relevant density matrix elements and security parameters for QKD. In addition to putting past experiments on rigorous footing, we also develop a physical noise model and propose a setup that can further enhance the noise resistance of free-space quantum communication.
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Project title:
HyperSpace: 101070168 (European Commission)
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Research Areas:
Quantum Modeling and Simulation: 40% Photonics: 40% Design and Engineering of Quantum Systems: 20%
