Transferring of Continuous Variable Squeezed States in 20 km Fiber
暂无分享,去创建一个
Kunchi Peng | Xiaojun Jia | Zhihui Yan | Jiliang Qin | Jialin Cheng | Shaocong Liang | K. Peng | Zhihui Yan | X. Jia | Jiliang Qin | Jialin Cheng | Shaocong Liang
[1] H. J. Kimble,et al. The quantum internet , 2008, Nature.
[2] Zheshen Zhang,et al. A 24 km fiber-based discretely signaled continuous variable quantum key distribution system. , 2009, Optics express.
[3] Kunchi Peng,et al. Long-Distance Continuous-Variable Quantum Key Distribution with Entangled States , 2018, Physical Review Applied.
[4] Shelby,et al. Resolved forward Brillouin scattering in optical fibers. , 1985, Physical review letters.
[5] Ying Guo,et al. Continuous-variable measurement-device-independent multipartite quantum communication , 2015, 1512.03876.
[6] Wenhai Yang,et al. Comparative study of the frequency-doubling performance on ring and linear cavity at short wavelength region. , 2015, Optics express.
[7] Timothy C. Ralph,et al. Experimental investigation of continuous-variable quantum teleportation , 2002, quant-ph/0207179.
[8] Karsten Danzmann,et al. Detection of 15 dB Squeezed States of Light and their Application for the Absolute Calibration of Photoelectric Quantum Efficiency. , 2016, Physical review letters.
[9] Ekert,et al. Quantum cryptography based on Bell's theorem. , 1991, Physical review letters.
[10] Vitus Händchen,et al. Quantum enhancement of the zero-area Sagnac interferometer topology for gravitational wave detection. , 2010, Physical review letters.
[11] Changde Xie,et al. Quantum Secret Sharing Among Four Players Using Multipartite Bound Entanglement of an Optical Field. , 2018, Physical review letters.
[12] Keisuke Goda,et al. A quantum-enhanced prototype gravitational-wave detector , 2008, 0802.4118.
[13] H. Lo,et al. Experimental study on the Gaussian-modulated coherent-state quantum key distribution over standard telecommunication fibers , 2007, 0709.3666.
[14] Shelby,et al. Guided acoustic-wave Brillouin scattering. , 1985, Physical review. B, Condensed matter.
[15] A. Nicolas,et al. A quantum memory for orbital angular momentum photonic qubits , 2013, Nature Photonics.
[16] Derek K. Jones,et al. Enhanced sensitivity of the LIGO gravitational wave detector by using squeezed states of light , 2013, Nature Photonics.
[17] J. Eisert,et al. Advances in quantum teleportation , 2015, Nature Photonics.
[18] Kimble,et al. Unconditional quantum teleportation , 1998, Science.
[19] Hugo Zbinden,et al. Self-testing quantum random number generator. , 2014, Physical review letters.
[20] G. H. Aguilar,et al. Quantum teleportation across a metropolitan fibre network , 2016, Nature Photonics.
[21] Polarization squeezing at the audio frequency band for the Rubidium D1 line. , 2017, Optics express.
[22] N. Cerf,et al. Quantum key distribution using gaussian-modulated coherent states , 2003, Nature.
[23] Xiaolong Su,et al. Deterministic quantum teleportation through fiber channels , 2018, Science Advances.
[24] Jian-Wei Pan,et al. Ground-to-satellite quantum teleportation , 2017, Nature.
[25] J. Cirac,et al. Distributed quantum computation over noisy channels , 1998, quant-ph/9803017.
[26] Peng Huang,et al. Continuous-variable quantum key distribution with 1 Mbps secure key rate. , 2015, Optics express.
[27] Xiaoying Li,et al. Long-distance distribution of the telecom band intensity difference squeezing generated in a fiber optical parametric amplifier. , 2018, Optics letters.
[28] Wanyi Gu,et al. Continuous-variable measurement-device-independent quantum key distribution using squeezed states , 2014, 1406.0973.
[29] S. McLaughlin,et al. Quantum key distribution over 25 km with an all-fiber continuous-variable system , 2007, 0706.4255.
[30] Gerd Leuchs,et al. Distribution of squeezed states through an atmospheric channel. , 2014, Physical review letters.
[31] Ning Wang,et al. Influence of guided acoustic wave Brillouin scattering on excess noise in fiber-based continuous variable quantum key distribution , 2014 .
[32] Eleni Diamanti,et al. Experimental demonstration of long-distance continuous-variable quantum key distribution , 2012, Nature Photonics.
[33] Masashi Ban,et al. Experimental demonstration of quantum teleportation of a squeezed state (7 pages) , 2005 .
[34] S. Braunstein,et al. Quantum Information with Continuous Variables , 2004, quant-ph/0410100.
[35] Robert Malaney,et al. Gaussian entanglement distribution via satellite , 2014, 1410.1319.
[36] Jinxia Feng,et al. Distribution of continuous variable quantum entanglement at a telecommunication wavelength over 20 km of optical fiber. , 2017, Optics letters.
[37] Silvania F. Pereira,et al. Realization of the Einstein-Podolsky-Rosen paradox for continuous variables in nondegenerate parametric amplification , 1992 .
[38] K. Peng,et al. Generation of two types of nonclassical optical states using an optical parametric oscillator with a PPKTP crystal , 2016 .
[39] C. Wittmann,et al. Atmospheric continuous-variable quantum communication , 2014, 1406.1321.