Quantum Communications and Quantum Imaging XII
Proceedings Volume 9225 is from: Logo
17-21 August 2014
San Diego, California, United States
Front Matter: Volume 9225
Proc. SPIE 9225, Front Matter: Volume 9225, 922501 (31 October 2014);
Quantum Imaging
Proc. SPIE 9225, Overcoming classical measurement limits through photon number correlations: an overview of a few recent results, 922502 (8 October 2014);
Proc. SPIE 9225, Space-time quantum ghost imaging: double beam and single beam, 922503 (8 October 2014);
Proc. SPIE 9225, Reduction effect of the accumulated number of ghost imaging by circulatory pattern, 922505 (8 October 2014);
Proc. SPIE 9225, Imaging single photons in non-separable states of polarization and spatial-mode, 922506 (8 October 2014);
Quantum Communications I
Proc. SPIE 9225, Quantum repeater architecture and NV-based node technology, 922507 (8 October 2014);
Proc. SPIE 9225, Enhancement of quantum noise effect by classical error control codes in the intensity shift keying Y-00 quantum stream cipher, 922508 (8 October 2014);
Quantum Information
Proc. SPIE 9225, Quantum statistical testing of a quantum random number generator, 922509 (8 October 2014);
Proc. SPIE 9225, Z_2 quantum memory implemented on circuit quantum electrodynamics, 92250B (8 October 2014);
Entanglement / Metrology
Proc. SPIE 9225, Azimuthal spectrum after parametric down-conversion with radial degrees of freedom, 92250D (8 October 2014);
Quantum Communications II
Proc. SPIE 9225, High performance quantum communication without quantum memories, 92250G (8 October 2014);
Proc. SPIE 9225, 143 km free-space quantum teleportation, 92250H (8 October 2014);
Proc. SPIE 9225, FEC coding for QKD at higher photon flux levels based on spatial entanglement of twin beams in PDC, 92250I (8 October 2014);
Proc. SPIE 9225, Progress in Y-00 physical cipher for Giga bit/sec optical data communications (intensity modulation method), 92250J (8 October 2014);
Proc. SPIE 9225, Investigation of a sub-10 femtosecond time precision polarized entangled photon source, 92250K (8 October 2014);
Quantum Information and Technology
Proc. SPIE 9225, Principle for possible memory structures with extra high density by using the electron sharing mechanisms of atoms in an inflective orbit, 92250N (8 October 2014);
Quantum Information II
Proc. SPIE 9225, Rydberg excitation assisted light shift blockade in Rb atoms for realizing a collective state quantum bit and quantum memory, 92250O (3 October 2014);
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