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42 results on '"Huang, Yundi"'

1. Strengthening practical continuous-variable quantum key distribution systems against measurement angular error

Author

Shen, Tao, Huang, Yundi, Wang, Xiangyu, Tian, Huiping, Chen, Ziyang, and Yu, Song

Subjects
Quantum Physics
Abstract

The optical phase shifter that constantly rotates the local oscillator phase is a necessity in continuous-variable quantum key distribution systems with heterodyne detection. In previous experimental implementations, the optical phase shifter is generally regarded as an ideal passive optical device that perfectly rotates the phase of the electromagnetic wave of $90^\circ$. However, the optical phase shifter in practice introduces imperfections, mainly the measurement angular error, which inevitably deteriorates the security of the practical systems. Here, we will give a concrete interpretation of measurement angular error in practical systems and the corresponding entanglement-based description. Subsequently, from the parameter estimation, we deduce the overestimated excess noise and the underestimated transmittance, which lead to a reduction in the final secret key rate. Simultaneously, we propose an estimation method of the measurement angular error. Next, the practical security analysis is provided in detail, and the effect of the measurement angular error and its corresponding compensation scheme are demonstrated. We conclude that measurement angular error severely degrades the security, but the proposed calibration and compensation method can significantly help improve the performance of the practical CV-QKD systems., Comment: 8 pages,6 figures

Published
2021
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2. Realizing downstream access network using continuous-variable quantum key distribution

Author

Huang, Yundi, Shen, Tao, Wang, Xiangyu, Chen, Ziyang, Xu, Bingjie, Yu, Song, and Guo, Hong

Subjects
Quantum Physics
Abstract

Quantum key distribution (QKD) which enables the secure distribution of symmetric keys between two legitimate parties is of great importance in future network security. Access network that connects multiple end-users with one network backbone can be combined with QKD to build security for end-users in a scalable and cost-effective way. Though previous QKD access networks are all implemented in the upstream direction, in this paper, we prove that downstream access network can also be constructed by using continuous-variable (CV) QKD. The security of the CV-QKD downstream access network is analyzed in detail, where we show the security analysis is secure against other parties in the network. The security analysis we proved corresponds to the downstream access network where only passive beamsplitter is sufficient to distribute the quantum signals and no other active controls are demanded. Moreover, standard CV-QKD systems can be directly fitted in the downstream access network, which makes it more applicable for practical implementations. Numerous simulation results are provided to demonstrate the performance of the CV-QKD downstream access network, where up to 64 end-users are shown to be feasible to access the network. Our work provides the security analysis framework for realizing QKD in the downstream access network which will boost the diversity for constructing practical QKD networks., Comment: 11 pages, 7 figures. Comments are welcome

Published
2021

4. A modified practical homodyne detector model for continuous-variable quantum key distribution: detailed security analysis and improvement by the phase-sensitive amplifier

Author

Huang, Yundi, Zhang, Yi-Chen, Huang, Luyu, and Yu, Song

Subjects
Quantum Physics
Abstract

The practical homodyne detector model of continuous-variable quantum key distribution models the inherent imperfections of the practical homodyne detector, namely the limited detection efficiency and the electronic noise, into trusted loss. However, the conventional practical homodyne detector model is valid only when both the imperfections of the practical homodyne detector are calibrated. In this paper, we show a modified practical homodyne detector model that can model the imperfections separately. The phase-sensitive amplifier is further applied to compensate the imperfections of the practical homodyne detector. The feasibility of the modified practical homodyne detector model with the phase-sensitive amplifier is proved and the security analysis is provided in detail. Simulation results reveal that the phase-sensitive amplifier can be used to improve the performance of the modified practical homodyne detector model, and when the gain is infinitely high, the limited detection efficiency can be fully compensated., Comment: 15 pages, 5 figures

Published
2020
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5. One-Time Shot-Noise Unit Calibration Method for Continuous-Variable Quantum Key Distribution

Author

Zhang, Yi-Chen, Huang, Yundi, Chen, Ziyang, Li, Zhengyu, Yu, Song, and Guo, Hong

Subjects
Quantum Physics
Abstract

The shot-noise unit in continuous-variable quantum key distribution plays an important and fundamental role in experimental implementation as it is used as a normalization parameter that contribute to perform security analysis and distill the key information. However, the traditional calibration procedure and detector model can not cover all system noise in practical application, which will result in some loopholes and influence the practical security. What's more, the traditional procedure is also rather complicated and has difficulty in compatible with automatic operating system. In this paper we propose a calibration model based on the proposed trusted detector model, which could naturally close the loopholes in practical application. It can help identify the shot-noise unit in only one step, which can not only effectively simplify the evaluation process but also reduce the statistical fluctuation, while two steps are needed in traditional method. We prove its feasibility and derive the complete version of the corresponding entanglement-based model. Detailed security analysis against arbitrary collective attacks and numerous simulation results in both the asymptotic limit regime and the finite-size regime are provided. A proof-of-principle experiment has been implemented and the results indicate that the one-time-calibration model can be employed as a powerful substitution to calibrate the shot-noise unit. Our method paves the way for the deployment of continuous-variable quantum key distribution with real time calibration and automatic operation., Comment: 17 pages, 12 figures

Published
2019
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6. Polarization attack on continuous-variable quantum key distribution

Author

Zhao, Yijia, Zhang, Yi-Chen, Huang, Yundi, Xu, Bingjie, Yu, Song, and Guo, Hong

Subjects
Quantum Physics
Abstract

The shot-noise unit (SNU) is a crucial factor for the practical security of a continuous-variable quantum key distribution system. In the most widely used experimental scheme, the SNU should be calibrated first and acts as a constant during the key distribution. However, the SNU of a practical system is dependent on the various parameters of the local oscillator, which can be controlled by the eavesdropper in the open channel. In this paper, we report a quantum hacking method to control the practical SNU by using the limited compensation rate of the polarization compensation. Since the compensation is only based on of the polarization measurement results of part of local oscillator pulses, the polarization of other unmeasured pulses may not be compensated correctly, which can be utilized by the eavesdropper to control the practical SNU. The simulation and experiment results indicate that the practical SNU can be controlled by the eavesdropper. Thus, the eavesdropper can use the fact that the practical SNU is no longer equals to the calibrated one to control the excess noise and final key rate.

Published
2018
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8. Continuous-variable QKD over 50km commercial fiber

Author

Zhang, Yi-Chen, Li, Zhengyu, Chen, Ziyang, Weedbrook, Christian, Zhao, Yijia, Wang, Xiangyu, Huang, Yundi, Xu, Chunchao, Zhang, Xiaoxiong, Wang, Zhenya, Li, Mei, Zhang, Xueying, Zheng, Ziyong, Chu, Binjie, Gao, Xinyu, Meng, Nan, Cai, Weiwen, Wang, Zheng, Wang, Gan, Yu, Song, and Guo, Hong

Subjects
Quantum Physics
Abstract

The continuous-variable version of quantum key distribution (QKD) offers the advantages (over discrete-variable systems) of higher secret key rates in metropolitan areas as well as the use of standard telecom components that can operate at room temperature. An important step in the real-world adoption of continuous-variable QKD is the deployment of field tests over commercial fibers. Here we report two different field tests of a continuous-variable QKD system through commercial fiber networks in Xi'an and Guangzhou over distances of 30.02 km (12.48 dB) and 49.85 km (11.62 dB), respectively. We achieve secure key rates two orders-of-magnitude higher than previous field test demonstrations. This is achieved by developing a fully automatic control system to create stable excess noise and by applying a rate-adaptive reconciliation protocol to achieve a high reconciliation efficiency with high success probability. Our results pave the way to achieving continuous-variable QKD in a metropolitan setting., Comment: 19 pages, 6 figures

Published
2017
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10. Novel Endoplasmic Reticulum-Targeted Luminescent Probe for Visualization of Carbon Monoxide in Drug-Induced Liver Injury

Author

Kong, Deshu, Huang, Yundi, Song, Bo, Zhang, Xinyue, and Yuan, Jingli

Abstract

Drug-induced liver injury (DILI) is a major hepatic dysfunction commonly caused by hepatotoxic drug overdose, resulting in a considerable number of fatalities worldwide. Recent studies have highlighted the regulatory and hepatoprotective effects of carbon monoxide (CO) during the liver injury process. However, precisely tracking the dynamic changes in the composition of CO in DILI is still a great challenge. In this work, leveraging the innovative “quencher-insertion” strategy, a unique endoplasmic reticulum (ER)-targetable lanthanide complex-based luminescence probe, ER-ANBTTA-Eu3+/Tb3+, has been developed for the selective and accurate monitoring of CO fluxes in live cells and laboratory animals. The new probe is composed of three covalently linked functional moieties: the terpyridine polyacid-Eu3+/Tb3+-mixed chelates as the long-lived luminophore, a p-toluenesulfonamide moiety as the ER-anchoring motif, and an allyloxy-nitrobenzyl ether moiety as the CO-specific recognition unit. Upon reaction with CO in the presence of Pd2+ions, the Tsuji–Trost reaction leads to the cleavage of the allyloxy-nitrobenzyl group from the Eu3+/Tb3+-mixed chelates, which results in the restoration of Tb3+emission at 538 nm and the attenuation of Eu3+emission at 688 nm, leading to a dramatic increase of the I538/I688ratio. In addition to the exceptional response sensitivity and selectivity toward CO, ER-ANBTTA-Eu3+/Tb3+also exhibits the outstanding ER-locating capability, which allows the probe to be used for imaging of CO in the ER of live cells. Using this probe, combined with the time-gated luminescence imaging mode, the exogenous and endogenous CO in ER of live cells were monitored without the interference of background autofluorescence. Moreover, the upregulation of hepatic CO in DILI mice was successfully visualized. The results suggested the potential of ER-ANBTTA-Eu3+/Tb3+for deeply exploring the functions of CO in DILI pathogenesis.

Published
2024
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31. Continuous-variable QKD over 50 km commercial fiber

Author

Zhang, Yichen, primary, Li, Zhengyu, additional, Chen, Ziyang, additional, Weedbrook, Christian, additional, Zhao, Yijia, additional, Wang, Xiangyu, additional, Huang, Yundi, additional, Xu, Chunchao, additional, Zhang, Xiaoxiong, additional, Wang, Zhenya, additional, Li, Mei, additional, Zhang, Xueying, additional, Zheng, Ziyong, additional, Chu, Binjie, additional, Gao, Xinyu, additional, Meng, Nan, additional, Cai, Weiwen, additional, Wang, Zheng, additional, Wang, Gan, additional, Yu, Song, additional, and Guo, Hong, additional

Published
2019
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32. Bioferroelectric Properties of Glycine Crystals

Author

Hu, Pengfei, primary, Hu, Shunbo, additional, Huang, Yundi, additional, Reimers, Jeffrey R., additional, Rappe, Andrew M., additional, Li, Yongle, additional, Stroppa, Alessandro, additional, and Ren, Wei, additional

Published
2019
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33. A modified practical homodyne detector model for continuous-variable quantum key distribution: detailed security analysis and improvement by the phase-sensitive amplifier.

Author

Huang, Yundi, Zhang, Yichen, Xu, Bingjie, Huang, Luyu, and Yu, Song

Subjects
*ELECTRONIC noise, *DETECTORS, *QUANTUM communication, *IMPERFECTION
Abstract

The practical homodyne detector model of continuous-variable quantum key distribution models the inherent imperfections of the practical homodyne detector, namely the limited detection efficiency and the electronic noise, into trusted loss. However, the conventional practical homodyne detector model is valid only when both the imperfections of the practical homodyne detector are calibrated. In this paper, we show a modified practical homodyne detector model that can model the imperfections separately. The phase-sensitive amplifier (PSA) is further applied to compensate the imperfections of the practical homodyne detector. The feasibility of the modified practical homodyne detector model with the PSA is proved and the security analysis is provided in detail. Simulation results reveal that the PSA can be used to improve the performance of the modified practical homodyne detector model, and when the gain is infinitely high, the limited detection efficiency can be fully compensated. [ABSTRACT FROM AUTHOR]

Published
2021
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42. A linear ontogeny accounts for the development of naive, memory and tumour-infiltrating regulatory T cells in mice.

Author

Pathak S, Hogan T, Rane S, Huang Y, Sinclair C, Barry S, Carnevalli L, Yates A, and Seddon B

Abstract

Foxp3 + Regulatory T cells (Treg) are a subset of CD4 + T cells that play critical functions in maintaining tolerance to self antigens and suppressing autoimmunity, regulating immune responses to pathogens and have a role in the pathophysiology of anti-tumoural immunity. Treg ontogeny is complex since they are generated following recognition of self antigens in the thymus during normal T cell development (thymic Treg), but are also induced from mature conventional T cells when activated by foreign antigen with appropriate additional cues (inducible Treg). How these distinct ontogenic pathways contribute to the maintenance and function of the mature Treg compartment in health and disease remains unclear. Here, we use a combination of fate mapping approaches in mice to map the ontogeny of Treg subsets throughout life and estimate rates of production, loss and self-renewal. We find that naive and effector/memory (EM) Treg subsets exhibit distinct dynamics but are both continuously replenished by de novo generation throughout life. Using an inducible Foxp3-dependent Cre fate reporter system, we show that naive Treg and not conventional T cells, are the predominant precursors of EM Treg in adults. Tonic development of new EM Treg is not influenced by foreign antigens from commensals, rather suggesting a role for self recognition. To investigate the ontogeny of Treg development in malignant disease, we used the same fate reporter systems to characterise the Treg infiltrate of three different model tumours. In all three cases, we found that Treg derived from pre-existing, EM Treg. Together, these results reveal a predominantly linear pathway of Treg development from thymic origin to EM Treg associated with pathophysiology of malignant disease, that is driven by self antigen recognition throughout.

Published
2024
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