论文信息 - Sensing intruders using entanglement: a photonic quantum fence

Sensing intruders using entanglement: a photonic quantum fence

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.

Ryan S. Bennink | Travis S. Humble | Warren P. Grice | Israel J. Owens

[1] Spectral effects in quantum teleportation , 2006, QELS 2006.

[2] M. Dušek,et al. Chapter 5 - Quantum cryptography , 2006, quant-ph/0601207.

[3] W. Wootters,et al. A single quantum cannot be cloned , 1982, Nature.

[4] I. Walmsley,et al. Spectral information and distinguishability in type-II down-conversion with a broadband pump , 1997 .

[5] Thomas Jennewein,et al. A wavelength-tunable fiber-coupled source of narrowband entangled photons. , 2007, Optics express.

[6] Van Trees,et al. Detection, Estimation, and Modulation Theory. Part 1 - Detection, Estimation, and Linear Modulation Theory. , 1968 .

[7] H. V. Trees. Detection, Estimation, And Modulation Theory , 2001 .

[8] W. Grice,et al. Effects of spectral entanglement in polarization-entanglement swapping and type-I fusion gates , 2008 .

[9] Shih,et al. New high-intensity source of polarization-entangled photon pairs. , 1995, Physical review letters.

[10] Warren P. Grice,et al. Total teleportation of a single-photon state , 2008, Optical Engineering + Applications.