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27 April 2009 Sensing intruders using entanglement: a photonic quantum fence
Travis S. Humble, Ryan S. Bennink, Warren P. Grice, Israel J. Owens
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Proceedings Volume 7342, Quantum Information and Computation VII; 73420H (2009) https://doi.org/10.1117/12.820221
Event: SPIE Defense, Security, and Sensing, 2009, Orlando, Florida, United States
Abstract
We describe the use of quantum-mechanically entangled photons for sensing intrusions across a physical perimeter. Our approach to intrusion detection uses the no-cloning principle of quantum information science as protection against an intruder's ability to spoof a sensor receiver using a 'classical' intercept-resend attack. Moreover, we employ the correlated measurement outcomes from polarization-entangled photons to protect against 'quantum' intercept-resend attacks, i.e., attacks using quantum teleportation. We explore the bounds on detection using quantum detection and estimation theory, and we experimentally demonstrate the underlying principle of entanglement-based detection using the visibility derived from polarization-correlation measurements.
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Travis S. Humble, Ryan S. Bennink, Warren P. Grice, and Israel J. Owens "Sensing intruders using entanglement: a photonic quantum fence", Proc. SPIE 7342, Quantum Information and Computation VII, 73420H (27 April 2009); https://doi.org/10.1117/12.820221
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KEYWORDS
Photons
Visibility
Receivers
Teleportation
Polarization
Sensors
Signal attenuation
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