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16 results on '"Sheng-Mei Zhao"'

1. Efficient two-step entanglement concentration for arbitrary W states

Author

Lan Zhou, Yu-Bo Sheng, and Sheng-Mei Zhao

Subjects
Physics, Quantum Physics, FOS: Physical sciences, Quantum entanglement, Topology, Teleportation, Atomic and Molecular Physics, and Optics, Quantum cryptography, Postselection, Quantum mechanics, Computer Science::Networking and Internet Architecture, State (computer science), W state, Quantum information science, Quantum Physics (quant-ph), Protocol (object-oriented programming), Computer Science::Cryptography and Security
Abstract

We present two two-step practical entanglement concentration protocols (ECPs) for concentrating an arbitrary three-particle less-entangled W state into a maximally entangled W state assisted with single photons. The first protocol uses the linear optics and the second protocol adopts the cross-Kerr nonlinearity to perform the protocol. In the first protocol, based on the post-selection principle, three parties say Alice, Bob and Charlie in different distant locations can obtain the maximally entangled W state from the arbitrary less-entangled W state with a certain success probability. In the second protocol, it dose not require the parties to posses the sophisticated single-photon detectors and the concentrated photon pair can be retained after performing this protocol successfully. Moreover, the second protocol can be repeated to get a higher success probability. Both protocols may be useful in practical quantum information applications., 10 pages, 4 figures

Published
2012

9. Experimental demonstration of influence of underwater turbulence on ghost imaging.

Author

Man-Qian Yin, Le Wang, and Sheng-Mei Zhao

Subjects
TURBULENCE, ATMOSPHERIC turbulence, TEMPERATURE control, DISTILLED water, WATER temperature, SPECKLE interference
Abstract

It is difficult to obtain a clear image in underwater turbulence environment with classical imaging methods due to the absorption, scattering, and underwater turbulence on the propagation beam. However, ghost imaging (GI), a non-locally imaging technique, has shown the turbulence-free ability in atmospheric turbulence by exploiting the second-order correlation between the signal beam and the reference beam. In this paper, we experimentally investigate the imaging quality of GI affected by the underwater environment, where the underwater environment is simulated by a 1 m × 0.4 m × 0.4 m tank with distilled water. The water temperature is controlled by a heater inside the tank, and a temperature gradient is obtained by putting the heater at different positions of the tank. The water vibration is produced by a heavy force, and the turbid medium is obtained by dissolving very small specks of CaCO3 in the water. A set of Hadamard speckle pattern pairs are generated and modulated on the incident beam, and then the beam illuminates on an unknown object after passing through the simulated underwater environment. With the second-order correlations, the image is reconstructed under different temperature gradients, water vibration, and turbid medium ratios. The results show that GI has the turbulence-free ability under lower temperature gradient, water vibration, and turbid media. The structural similarity image measurement (SSIM) values of the reconstructed images only start to decrease when the temperature gradient is greater than 4.0 °C. The same temperature gradient produced at the different positions has a little effect on the quality of the underwater GI. [ABSTRACT FROM AUTHOR]

Published
2019
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10. Efficient quantum key distribution based on hybrid degrees of freedom.

Author

Qian-Ping Mao, Le Wang, and Sheng-Mei Zhao

Abstract

Round-robin differential-phase-shift (RRDPS) quantum key distribution (QKD) protocol is a practical QKD protocol without monitoring the signal disturbance. However, how to further increase the secure key rate is still a challenge in practice. In the paper, we propose a high efficient QKD protocol based on RRDPS-QKD, where the photon-states are encoded in two degrees of freedom (DOFs), phase and polarization. The key generation rate and the security of the proposal protocol are analyzed. The simulation results show that the secure key rate is greatly improved in comparison with the original RRDPS-QKD protocol by breaking the limitation of quantum state in a single DOF. Moreover, our protocol can still maintain the high error tolerance of RRDPS-QKD protocol. [ABSTRACT FROM AUTHOR]

Published
2019
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11. Optical encryption scheme based on ghost imaging with disordered speckles.

Author

Yu-dong Zhang and Sheng-mei Zhao

Subjects
*IMAGING systems, *PERMUTATIONS, *SECURITY systems, *EAVESDROPPING, *ELECTRONIC surveillance
Abstract

An optical encryption scheme based on a ghost imaging system with disordered speckles is proposed to obtain a higher security with a small key. In the scheme, Alice produces the random speckle patterns and obtains the detection results with the help of a computational ghost imaging (CGI) system. Then Alice permutes the order of the random speckle patterns and shares the permutation sequence as a secure key to the authorized users. With the secure key, Bob could recover the object with the principle of the CGI system, whereas, the unauthorized users could not obtain any information of the object. The numerical simulations and experimental results show that the proposed scheme is feasible with a small key, simultaneously, it has a higher security. When the eavesdropping ratio (ER) is less than 40%, the eavesdropper cannot acquire any useful information. Meanwhile, the authorized users could recover completely with the secure key. [ABSTRACT FROM AUTHOR]

Published
2017
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12. Turbulence mitigation scheme based on multiple-user detection in an orbital–angular-momentum multiplexed system.

Author

Li Zou, Le Wang, Sheng-Mei Zhao, and Han-Wu Chen

Subjects
ANGULAR momentum (Mechanics), ATMOSPHERIC turbulence, FREE-space optical technology, MULTIPLEXING, STRENGTH of materials
Abstract

Atmospheric turbulence (AT) induced crosstalk can significantly impair the performance of a free-space optical (FSO) communication link using orbital angular momentum (OAM) multiplexing. In this paper, we propose a multiple-user detection (MUD) turbulence mitigation scheme in an OAM-multiplexed FSO communication link. First, we present a MUD equivalent communication model for an OAM-multiplexed FSO communication link under AT. In the equivalent model, each input bit stream represents one user’s information. The deformed OAM spatial modes caused by AT, instead of the pure OAM spatial modes, are used as information carriers, and the overlapping between the deformed OAM spatial modes are computed as the correlation coefficients between the users. Then, we present a turbulence mitigation scheme based on MUD idea to enhance AT tolerance of the OAM-multiplexed FSO communication link. In the proposed scheme, the crosstalk caused by AT is used as a useful component to deduce users’ information. The numerical results show that the performance of the OAM-multiplexed communication link has greatly improved by the proposed scheme. When the turbulence strength is 1 × 10−15 m−2/3, the transmission distance is 1000 m and the channel signal-to-noise ratio (SNR) is 26 dB, the bit-error-rate (BER) performance of four spatial multiplexed OAM modes lm = +1,+2,+3,+4 are all close to 10−5, and there is a 2–3 fold increase in the BER performance in comparison with those results without the proposed scheme. In addition, the proposed scheme is more effective for an OAM-multiplexed FSO communication link with a larger OAM mode topological charge interval. The proposed scheme is a promising direction for compensating the interference caused by AT in the OAM-multiplexed FSO communication link. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Correspondence normalized ghost imaging on compressive sensing.

Author

Sheng-Mei Zhao and Peng Zhuang

Subjects
*COMPRESSED sensing, *SIGNAL-to-noise ratio, *IMAGE reconstruction, *MEAN square algorithms, *PARAMETRIC downconversion, *QUANTUM entanglement
Abstract

Ghost imaging (GI) offers great potential with respect to conventional imaging techniques. It is an open problem in GI systems that a long acquisition time is be required for reconstructing images with good visibility and signal-to-noise ratios (SNRs). In this paper, we propose a new scheme to get good performance with a shorter construction time. We call it correspondence normalized ghost imaging based on compressive sensing (CCNGI). In the scheme, we enhance the signal-to-noise performance by normalizing the reference beam intensity to eliminate the noise caused by laser power fluctuations, and reduce the reconstruction time by using both compressive sensing (CS) and time-correspondence imaging (CI) techniques. It is shown that the qualities of the images have been improved and the reconstruction time has been reduced using CCNGI scheme. For the two-grayscale “double-slit" image, the mean square error (MSE) by GI and the normalized GI (NGI) schemes with the measurement number of 5000 are 0.237 and 0.164, respectively, and that is 0.021 by CCNGI scheme with 2500 measurements. For the eight-grayscale “lena" object, the peak signal-to-noise rates (PSNRs) are 10.506 and 13.098, respectively using GI and NGI schemes while the value turns to 16.198 using CCNGI scheme. The results also show that a high-fidelity GI reconstruction has been achieved using only 44% of the number of measurements corresponding to the Nyquist limit for the two-grayscale “double-slit" object. The qualities of the reconstructed images using CCNGI are almost the same as those from GI via sparsity constraints (GISC) with a shorter reconstruction time. [ABSTRACT FROM AUTHOR]

Published
2014
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16. Efficient single-photon-assisted entanglement concentration for partially entangled photon pairs.

Author

Yu-Bo Sheng, Lan Zhou, Sheng-Mei Zhao, and Bao-Yu Zheng

Subjects
*QUANTUM entanglement, *NONLINEAR theories, *PROBABILITY theory, *MULTIPHOTON processes, *QUANTUM communication, *OPTICAL communications
Abstract

We present two realistic entanglement concentration protocols (ECPs) for pure partially entangled photons. A partially entangled photon pair can be concentrated to a maximally entangled pair with only an ancillary single photon with a certain probability, while the conventional ECPs require two copies of partially entangled pairs at least. Our first protocol is implemented with linear optics and the second protocol is implemented with cross-Kerr-nonlinearities. Compared with other ECPs, they do not need to know the accurate coefficients of the initial state. With linear optics, it is feasible with current experiments. With cross-Kerr-nonlinearities, it does not require sophisticated single-photon detectors and can be repeated to get a higher success probability. Moreover, the second protocol can get the higher entanglement transformation efficiency and it may be the most economical protocol by far. Meanwhile, both protocols are more suitable for multiphoton system concentration because they need less operations and classical communications. All these advantages make the two protocols useful in current long-distance quantum communications. [ABSTRACT FROM AUTHOR]

Published
2012
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