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19 September 2019 Towards hyperentangled time-bin and polarization superdense teleportation in space
Joseph C. Chapman, Ian Miller, Ian Call, Leo Oshiro, Matthias Zajdela, Brooke Polak, Paul G. Kwiat
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Proceedings Volume 11167, Quantum Technologies and Quantum Information Science V; 1116702 (2019) https://doi.org/10.1117/12.2537081
Event: SPIE Security + Defence, 2019, Strasbourg, France
Abstract
Quantum communication networks based on fiber optics are restricted in length since efficient quantum repeaters are not yet available. A free-space channel between a satellite in orbit and Earth can circumvent this problem. We have constructed a system to demonstrate the feasibility of quantum communication between space and earth using photons hyperentangled in their polarization and time-bin degrees of freedom. With this system, we have implemented superdense teleportation (SDT) with a fidelity of 0.94±0.02. To increase the efficiency of SDT, we have developed an active, polarization-independent switch compatible with SDT. We characterized the performance of its switching efficiency. Finally, we have constructed a novel two-level interferometer for time-bin qubit creation and analysis in orbit, and bounded its stability.
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Joseph C. Chapman, Ian Miller, Ian Call, Leo Oshiro, Matthias Zajdela, Brooke Polak, and Paul G. Kwiat "Towards hyperentangled time-bin and polarization superdense teleportation in space", Proc. SPIE 11167, Quantum Technologies and Quantum Information Science V, 1116702 (19 September 2019); https://doi.org/10.1117/12.2537081
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KEYWORDS
Interferometers
Polarization
Beam splitters
Pulsed laser operation
Switches
Photons
Quantum communications
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