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51. Long-distance entanglement purification for quantum communication

Author

Hu, Xiao-Min, Huang, Cen-Xiao, Sheng, Yu-Bo, Zhou, Lan, Liu, Bi-Heng, Guo, Yu, Zhang, Chao, Xing, Wen-Bo, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

High-quality long-distance entanglement is essential for both quantum communication and scalable quantum networks. Entanglement purification is to distill high-quality entanglement from low-quality entanglement in a noisy environment and it plays a key role in quantum repeaters. The previous significant entanglement purification experiments require two pairs of low-quality entangled states and were demonstrated in table-top. Here we propose and report a high-efficiency and long-distance entanglement purification using only one pair of hyperentangled states. We also demonstrate its practical application in entanglement-based quantum key distribution (QKD). One pair of polarization spatial-mode hyperentanglement was distributed over 11 km multicore fiber (noisy channel). After purification, the fidelity of polarization entanglement arises from 0.771 to 0.887 and the effective key rate in entanglement-based QKD increases from 0 to 0.332. The values of Clauser-Horne-Shimony-Holt (CHSH) inequality of polarization entanglement arises from 1.829 to 2.128. Moreover, by using one pair of hyperentanglement and deterministic controlled-NOT gate, the total purification efficiency can be estimated as 6.6x10^3 times than the experiment using two pairs of entangled states with spontaneous parametric down-conversion (SPDC) sources. Our results offer the potential to be implemented as part of a full quantum repeater and large scale quantum network., Comment: The typos in the title and abstract are modified

Published
2021
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52. Nonlocality, steering and quantum state tomography in a single experiment

Author

Huang, Chang-Jiang, Xiang, Guo-Yong, Guo, Yu, Wu, Kang-Da, Liu, Bi-Heng, Li, Chuan-Feng, Guo, Guang-Can, and Tavakoli, Armin

Subjects
Quantum Physics
Abstract

We investigate whether paradigmatic measurements for quantum state tomography, namely mutually unbiased bases and symmetric informationally complete measurements, can be employed to certify quantum correlations. For this purpose, we identify a simple and noise-robust correlation witness for entanglement detection, steering and nonlocality that can be evaluated based on the outcome statistics obtained in the tomography experiment. This allows us to perform state tomography on entangled qutrits, a test of Einstein-Podolsky-Rosen steering and a Bell inequality test, all within a single experiment. We also investigate the trade-off between quantum correlations and subsets of tomographically complete measurements as well as the quantification of entanglement in the different scenarios. Finally, we perform a photonics experiment in which we demonstrate quantum correlations under these flexible assumptions, namely with both parties trusted, one party untrusted and both parties untrusted., Comment: See also the communication game of arXiv:2007.15643 to which our nonlocal game is strongly related

Published
2020
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53. Pathways for entanglement based quantum communication in the face of high noise

Author

Hu, Xiao-Min, Zhang, Chao, Guo, Yu, Wang, Fang-Xiang, Xing, Wen-Bo, Huang, Cen-Xiao, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, Gao, Xiaoqin, Pivoluska, Matej, and Huber, Marcus

Subjects
Quantum Physics
Abstract

Entanglement based quantum communication offers an increased level of security in practical secret shared key distribution. One of the fundamental principles enabling this security -- the fact that interfering with one photon will destroy entanglement and thus be detectable -- is also the greatest obstacle. Random encounters of traveling photons, losses and technical imperfections make noise an inevitable part of any quantum communication scheme, severely limiting distance, key rate and environmental conditions in which QKD can be employed. Using photons entangled in their spatial degree of freedom, we show that the increased noise resistance of high-dimensional entanglement, can indeed be harnessed for practical key distribution schemes. We perform quantum key distribution in eight entangled paths at various levels of environmental noise and show key rates that, even after error correction and privacy amplification, still exceed $1$ bit per photon pair and furthermore certify a secure key at noise levels that would prohibit comparable qubit based schemes from working., Comment: 14 pages, 3 figures

Published
2020
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54. Optimized detection of high-dimensional entanglement

Author

Hu, Xiao-Min, Xing, Wen-Bo, Guo, Yu, Weilenmann, Mirjam, Aguilar, Edgar A., Gao, Xiaoqin, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, Wang, Zizhu, and Navascués, Miguel

Subjects
Quantum Physics
Abstract

Entanglement detection is one of the most conventional tasks in quantum information processing. While most experimental demonstrations of high-dimensional entanglement rely on fidelity-based witnesses, these are powerless to detect entanglement within a large class of entangled quantum states, the so-called unfaithful states. In this paper, we introduce a highly flexible automated method to construct optimal tests for entanglement detection given a bipartite target state of arbitrary dimension, faithful or unfaithful, and a set of local measurement operators. By restricting the number or complexity of the considered measurement settings, our method outputs the most convenient protocol which can be implemented using a wide range of experimental techniques such as photons, superconducting qudits, cold atoms or trapped ions. With an experimental quantum optics setup that can prepare and measure arbitrary high-dimensional mixed states, we implement some $3$-setting protocols generated by our method. These protocols allow us to experimentally certify 2- and 3-unfaithful entanglement in 4-dimensional photonic states, some of which contain well above 50% of noise., Comment: 12 pages. Expanded experimental data collection, simplified theoretical description in the main text

Published
2020
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55. Experimental Entanglement Quantification for Unknown Quantum States in a Semi-Device-Independent Manner

Author

Guo, Yu, Lin, Lijinzhi, Cao, Huan, Zhang, Chao, Lin, Xiaodie, Hu, Xiao-Min, Liu, Bi-Heng, Huang, Yun-Feng, Wei, Zhaohui, Han, Yong-Jian, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Using the concept of non-degenerate Bell inequality, we show that quantum entanglement, the critical resource for various quantum information processing tasks, can be quantified for any unknown quantum states in a semi-device-independent manner, where the quantification is based on the experimentally obtained probability distribution and beforehand knowledge on quantum dimension only. Specifically, as an application of our approach on multi-level systems, we experimentally quantify the entanglement of formation and the entanglement of distillation for qutrit-qutrit quantum systems. In addition, to demonstrate our approach for multi-partite systems, we further quantify the geometry measure of entanglement of three-qubit quantum systems. Our results supply a general way to reliably quantify entanglement in multi-level and multi-partite systems, thus paving the way to characterize many-body quantum systems by quantifying involved entanglement., Comment: 6 pages+4 figures, comments are welcome

Published
2020

58. Multi-level Cross-modal Interaction Network for RGB-D Salient Object Detection

Author

Huang, Zhou, Chen, Huai-Xin, Zhou, Tao, Yang, Yun-Zhi, and Liu, Bi-Yuan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Depth cues with affluent spatial information have been proven beneficial in boosting salient object detection (SOD), while the depth quality directly affects the subsequent SOD performance. However, it is inevitable to obtain some low-quality depth cues due to limitations of its acquisition devices, which can inhibit the SOD performance. Besides, existing methods tend to combine RGB images and depth cues in a direct fusion or a simple fusion module, which makes they can not effectively exploit the complex correlations between the two sources. Moreover, few methods design an appropriate module to fully fuse multi-level features, resulting in cross-level feature interaction insufficient. To address these issues, we propose a novel Multi-level Cross-modal Interaction Network (MCINet) for RGB-D based SOD. Our MCI-Net includes two key components: 1) a cross-modal feature learning network, which is used to learn the high-level features for the RGB images and depth cues, effectively enabling the correlations between the two sources to be exploited; and 2) a multi-level interactive integration network, which integrates multi-level cross-modal features to boost the SOD performance. Extensive experiments on six benchmark datasets demonstrate the superiority of our MCI-Net over 14 state-of-the-art methods, and validate the effectiveness of different components in our MCI-Net. More important, our MCI-Net significantly improves the SOD performance as well as has a higher FPS.

Published
2020

59. Experimental realization of high-fidelity teleportation via non-Markovian open quantum system

Author

Liu, Zhao-Di, Sun, Yong-Nan, Liu, Bi-Heng, Li, Chuan-Feng, Guo, Guang-Can, Raja, Sina Hamedani, Lyyra, Henri, and Piilo, Jyrki

Subjects
Quantum Physics
Abstract

Open quantum systems and study of decoherence are important for our fundamental understanding of quantum physical phenomena. For practical purposes, there exists a large number of quantum protocols exploiting quantum resources, e.g. entanglement, which allows to go beyond what is possible to achieve by classical means. We combine concepts from open quantum systems and quantum information science, and give a proof-of-principle experimental demonstration -- with teleportation -- that it is possible to implement efficiently a quantum protocol via non-Markovian open system. The results show that, at the time of implementation of the protocol, it is not necessary to have the quantum resource in the degree of freedom used for the basic protocol -- as long as there exists some other degree of freedom, or environment of an open system, which contains useful resources. The experiment is based on a pair of photons, where their polarizations act as open system qubits and frequencies as their environments -- while the path degree of freedom of one of the photons represents the state of Alice's qubit to be teleported to Bob's polarization qubit., Comment: v2: added more experimental results, minor text modifications

Published
2020
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60. Nonlinear Virtual Inertia Control of WTGs for Enhancing Primary Frequency Response and Suppressing Drive-Train Torsional Oscillations

Author

Liu, Bi, Huang, Qi, Zhao, Junbo, Milano, Federico, and Zhang, Yingchen

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Virtual inertia controllers (VICs) for wind turbine generators (WTGs) have been recently developed to compensate for the reduction of inertia in power systems. However, VICs can induce low-frequency torsional oscillations of the drive train of WTGs. This paper addresses this issue and develops a new nonlinear VIC based on objective holographic feedbacks theory. This approach allows transforming the objectives that require improvement into a completely controllable system of Brunovsky's type. Simulation results under various scenarios demonstrate that the proposed method outperforms existing VICs in terms of suppression of WTG low-frequency drive-train torsional oscillations, enhancement of system frequency nadir as well as fast and smooth recovery of WTG rotor speed to the original MPP before the disturbance. The proposed method is also able to coordinate multiple WTGs., Comment: 8 pages, 14 figures

Published
2020

61. Efficient generation of high-dimensional entanglement through multi-path downconversion

Author

Hu, Xiao-Min, Xing, Wen-Bo, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, Erker, Paul, and Huber, Marcus

Subjects
Quantum Physics
Abstract

High-dimensional entanglement promises to greatly enhance the performance of quantum communication and enable quantum advantages unreachable by qubit entanglement. One of the great challenges, however, is the reliable production, distribution and local certification of high-dimensional sources of entanglement. In this article, we present an optical setup capable of producing quantum states with an exceptionally high-level of scalability, control and quality, that, together with novel certification techniques, achieve the highest amount of entanglement recorded so far. We showcase entanglement in $32$-spatial dimensions with record fidelity to the maximally entangled state ($F=0.933\pm0.001$) and introduce measurement efficient schemes to certify entanglement of formation ($E_{oF}=3.728\pm0.006$). Combined with the existing multi-core fibre technology, our results will lay a solid foundation for the construction of high-dimensional quantum networks., Comment: 5+5 pages, 4 figures

Published
2020
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62. Contrast-weighted Dictionary Learning Based Saliency Detection for Remote Sensing Images

Author

Huang, Zhou, Chen, Huai-Xin, Zhou, Tao, Yang, Yun-Zhi, Wang, Chang-Yin, and Liu, Bi-Yuan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Object detection is an important task in remote sensing image analysis. To reduce the computational complexity of redundant information and improve the efficiency of image processing, visual saliency models have been widely applied in this field. In this paper, a novel saliency detection model based on Contrast-weighted Dictionary Learning (CDL) is proposed for remote sensing images. Specifically, the proposed CDL learns salient and non-salient atoms from positive and negative samples to construct a discriminant dictionary, in which a contrast-weighted term is proposed to encourage the contrast-weighted patterns to be present in the learned salient dictionary while discouraging them from being present in the non-salient dictionary. Then, we measure the saliency by combining the coefficients of the sparse representation (SR) and reconstruction errors. Furthermore, by using the proposed joint saliency measure, a variety of saliency maps are generated based on the discriminant dictionary. Finally, a fusion method based on global gradient optimization is proposed to integrate multiple saliency maps. Experimental results on four datasets demonstrate that the proposed model outperforms other state-of-the-art methods.

Published
2020
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63. Experimental Demonstration of Instrument-specific Quantum Memory Effects and Non-Markovian Process Recovery for Common-Cause Processes

Author

Guo, Yu, Taranto, Philip, Liu, Bi-Heng, Hu, Xiao-Min, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

The duration, strength and structure of memory effects are crucial properties of physical evolution. Due to the invasive nature of quantum measurement, such properties must be defined with respect to the probing instruments employed. Here, using a photonic platform, we experimentally demonstrate this necessity via two paradigmatic processes: future-history correlations in the first process can be erased by an intermediate quantum measurement; for the second process, a noisy classical measurement blocks the effect of history. We then apply memory truncation techniques to recover an efficient description that approximates expectation values for multi-time observables. Our proof-of-principle analysis paves the way for experiments concerning more general non-Markovian quantum processes and highlights where standard open systems techniques break down., Comment: 4.5+7 pages; 7 figures; 62 references

Published
2020
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64. Experimental creation of Multi-Photon High-Dimensional Layered Quantum States

Author

Hu, Xiao-Min, Xing, Wen-Bo, Zhang, Chao, Liu, Bi-Heng, Pivoluska, Matej, Huber, Marcus, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics, Physics - Optics
Abstract

Quantum entanglement is one of the most important resources in quantum information. In recent years, the research of quantum entanglement mainly focused on the increase in the number of entangled qubits or the high-dimensional entanglement of two particles. Compared with qubit states, multipartite high-dimensional entangled states have beneficial properties and are powerful for constructing quantum networks. However, there are few studies on multipartite high-dimensional quantum entanglement due to the difficulty of creating such states. In this paper, we experimentally prepared a multipartite high-dimensional state $|\Psi_{442}\rangle=\frac{1}{2}(|000\rangle+|110\rangle+|221\rangle+|331\rangle)$ by using the path mode of photons. We obtain the fidelity $F=0.854\pm0.007$ of the quantum state, which proves a real multipartite high-dimensional entangled state. Finally, we use this quantum state to demonstrate a layered quantum network in principle. Our work highlights another route towards complex quantum networks., Comment: 9 pages, 5 figures, and 2 tables

Published
2020
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70. Device-independent verification of Einstein-Podolsky-Rosen steering

Author

Zhao, Yuan-Yuan, Zhang, Chao, Cheng, Shuming, Li, Xinhui, Guo, Yu, Liu, Bi-Heng, Ku, Huan-Yu, Chen, Shin-Liang, Wen, Qiaoyan, Huang, Yun-Feng, Xiang, Guo-Yong, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Entanglement lies at the heart of quantum mechanics, and has been identified an essential resource for diverse applications in quantum information. If entanglement could be verified without any trust in the devices of observers, i.e., in a device-independent (DI) way, then unconditional security can be guaranteed for various quantum information tasks. In this work, we propose an experimental-friendly DI protocol to certify the presence of entanglement, based on Einstein-Podolsky-Rosen (EPR) steering. We first establish the DI verification framework, relying on the measurement-device-independent technique and self-testing, and show it is able to verify all EPR-steerable states. In the context of three-measurement settings as per party, it is found to be noise robustness towards inefficient measurements and imperfect self-testing. Finally, a four-photon experiment is implemented to device-independently verify EPR-steering even for Bell local states. Our work paves the way for realistic implementations of secure quantum information tasks., Comment: Experiments are rerun to collect more data to do tomography and the text is significantly refined; Comments are still welcome

Published
2019
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71. Demonstrating quantum coherence and metrology that is resilient to transversal noise

Author

Zhang, Chao, Bromley, Thomas R., Huang, Yun-Feng, Cao, Huan, Lv, Wei-Min, Liu, Bi-Heng, Li, Chuan-Feng, Guo, Guang-Can, Cianciaruso, Marco, and Adesso, Gerardo

Subjects
Quantum Physics
Abstract

Quantum systems can be exploited for disruptive technologies but in practice quantum features are fragile due to noisy environments. Quantum coherence, a fundamental such feature, is a basis-dependent property that is known to exhibit a resilience to certain types of Markovian noise. Yet, it is still unclear whether this resilience can be relevant in practical tasks. Here, we experimentally investigate the resilient effect of quantum coherence in a photonic Greenberger-Horne-Zeilinger state under Markovian bit-flip noise, and explore its applications in a noisy metrology scenario. In particular, using up to six-qubit probes, we demonstrate that the standard quantum limit can be outperformed under a transversal noise strength of approximately equal magnitude to the signal, providing experimental evidence of metrological advantage even in the presence of uncorrelated Markovian noise. This work highlights the important role of passive control in noisy quantum hardware, which can act as a low-overhead complement to more traditional approaches such as quantum error correction, thus impacting on the deployment of quantum technologies in real-world settings., Comment: 5+11 pages, 3+11 figures; (v2) title changed, close to published version

Published
2019
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72. Advances in quantum dense coding

Author

Guo, Yu, Liu, Bi-Heng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Quantum dense coding is one of the most important protocols in quantum communication. It derives from the idea of using quantum resources to boost the communication capacity and now serves as a key primitive across a variety of quantum information protocols. Here, we focus on the basic theoretical ideas behind quantum dense coding, discussing its development history from discrete and continuous variables to quantum networks, then to its variant protocols and applications in quantum secure communication. With this basic background in hand, we then review the main experimental achievements, from photonic qubits and qudits to optical modes, nuclear magnetic resonance, and atomic systems. Besides the state of the art, we finally discuss potential future steps., Comment: Accepted by Advanced Quantum Technologies (Invited review)

Published
2019
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73. Experimental high-dimensional quantum teleportation

Author

Hu, Xiao-Min, Zhang, Chao, Liu, Bi-Heng, Cai, Yu, Ye, Xiang-Jun, Guo, Yu, Xing, Wen-Bo, Huang, Cen-Xiao, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Quantum teleportation provides a way to transmit unknown quantum states from one location to another. In the quantum world, multilevel systems which enable high-dimensional systems are more prevalent. Therefore, to completely rebuild the quantum states of a single particle remotely, one needs to teleport multilevel (high-dimensional) states. Here, we demonstrate the teleportation of high-dimensional states in a three-dimensional six-photon system. We exploit the spatial mode of a single photon as the high-dimensional system, use two auxiliary entangled photons to realize a deterministic three-dimensional Bell state measurement. The fidelity of teleportation process matrix is F=0.596\pm0.037. Through this process matrix, we can prove that our teleportation is both nonclassical and genuine three dimensional. Our work paves the way to rebuild complex quantum systems remotely and to construct complex quantum networks., Comment: 20 pages, 15 figures

Published
2019
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74. An arbitrary two-particle high-dimensional Bell state measurement by auxiliary entanglement

Author

Zhang, Hao, Zhang, Chao, Hu, Xiao-Min, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Bell state measurement (BSM) plays a vital role in quantum information. There are many researches on BSM of qubit Bell state, however, there is no definite solution of how to realize high-dimensional Bell state measurement (HDBSM). In this paper, We present a scheme for realizing arbitrary high-dimensional two-particle Bell state measurement by auxiliary entanglement. In our scheme, the maximal entangled states with different degrees of freedom (DOF) are used as auxiliary states, and then the HDBSM can be achieved by implementing Bell measurement with different degrees of freedom. We present the detailed HDBSM scheme for three and four-dimensional Bell state, and the general formula for arbitrary high-dimensional Bell state. Furthermore, We have designed the experimental scheme for three-dimensional BSM, and given the method of arbitrary dimension. This method can promote the high-dimensional quantum information task.

Published
2019
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75. Measurement-device-independent quantification of irreducible high-dimensional entanglement

Author

Guo, Yu, Yu, Bai-Chu, Hu, Xiao-Min, Liu, Bi-Heng, Wu, Yu-Chun, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

The certification of entanglement dimensionality is of great importance in characterizing quantum systems. Recently, it is pointed out that quantum correlation of high-dimensional states can be simulated with a sequence of lower-dimensional states. Such problem may render existing characterization protocols unreliable---the observed entanglement may not be a truly high-dimensional one. Here, we introduce the notion of irreducible entanglement to capture its dimensionality that is indecomposable in terms of a sequence of lower-dimensional entangled systems. We prove this new feature can be detected in a measurement-device-independent manner with an entanglement witness protocol. To demonstrate the practicability of this technique, we experimentally apply it on a 3-dimensional bipartite state and the result certifies the existence of irreducible (at least) 3-dimensional entanglement., Comment: 6 pages, 2 figures, comments are welcome

Published
2019
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80. Experimental Measurement-Device-Independent Quantum Steering and Randomness Generation Beyond Qubits

Author

Guo, Yu, Cheng, Shuming, Hu, Xiaomin, Liu, Bi-Heng, Huang, En-Ming, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, and Cavalcanti, Eric G.

Subjects
Quantum Physics
Abstract

In a measurement-device-independent or quantum-refereed protocol, a referee can verify whether two parties share entanglement or Einstein-Podolsky-Rosen (EPR) steering without the need to trust either of the parties or their devices. The need for trusting a party is substituted by a quantum channel between the referee and that party, through which the referee encodes the measurements to be performed on that party's subsystem in a set of nonorthogonal quantum states. In this Letter, an EPR-steering inequality is adapted as a quantum-refereed EPR-steering witness, and the trust-free experimental verification of higher dimensional quantum steering is reported via preparing a class of entangled photonic qutrits. Further, with two measurement settings, we extract $1.106\pm0.023$ bits of private randomness per every photon pair from our observed data, which surpasses the one-bit limit for projective measurements performed on qubit systems. Our results advance research on quantum information processing tasks beyond qubits., Comment: 14 pages, 9 figures

Published
2018
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81. Distribution of high-dimensional orbital angular momentum entanglement at telecom wavelength over 1km of optical fibre

Author

Cao, Huan, Gao, She-Cheng, Zhang, Chao, Wang, Jian, He, De-Yong, Liu, Bi-Heng, Zhou, Zheng-Wei, Chen, Yu-Jie, Li, Zhao-Hui, Yu, Si-Yuan, Romero, Jacquiline, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

High-dimensional entanglement has demonstrated potential for increasing channel capacity and resistance to noise in quantum information processing. However, its distribution is a challenging task, imposing a severe restriction on its application. Here we report the first distribution of three-dimensional orbital angular momentum (OAM) entanglement via a 1-km-long optical fibre. Using an actively-stabilizing phase pre-compensation technique, we successfully transport one photon of a three-dimensional OAM entangled photon pair through the fibre. The distributed OAM entangled state still shows a fidelity up to 71\% with respect to the three-dimensional maximal-entangled-state (MES). In addition, we certify that the high-dimensional quantum entanglement survives the transportation by violating a generalized Bell inequality, obtaining a violation of $\sim3$ standard deviations with $I_{3}=2.12\pm0.04$. The method we developed can be extended to higher OAM dimension and larger distances in principle. Our results make a significant step towards future OAM-based high-dimensional long-distance quantum communication., Comment: 10 pages, 4 figures

Published
2018

82. Experimental transmission of quantum information using a superposition of causal orders

Author

Guo, Yu, Hu, Xiao-Min, Hou, Zhi-Bo, Cao, Huan, Cui, Jin-Ming, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, and Chiribella, Giulio

Subjects
Quantum Physics
Abstract

Communication in a network generally takes place through a sequence of intermediate nodes connected by communication channels. In the standard theory of communication, it is assumed that the communication network is embedded in a classical spacetime, where the relative order of different nodes is well-defined. In principle, a quantum theory of spacetime could allow the order of the intermediate points between sender and receiver to be in a coherent superposition. Here we experimentally realise a table-top simulation of this exotic possibility on a photonic system, demonstrating high-fidelity transmission of quantum information over two noisy channels arranged in a superposition of two alternative causal orders., Comment: 8 pages, 5 figures. Accepted for publication in Physical review letters

Published
2018
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83. Entanglement detection by violations of noisy uncertainty relations: A proof of principle

Author

Zhao, Yuan-Yuan, Xiang, Guo-Yong, Hu, Xiao-Min, Liu, Bi-Heng, Li, Chuan-Feng, Guo, Guang-Can, Schwonnek, René, and Wolf, Ramona

Subjects
Quantum Physics
Abstract

It is well-known that the violation of a local uncertainty relation can be used as an indicator for the presence of entanglement. Unfortunately, the practical use of these non-linear witnesses has been limited to few special cases in the past. However, new methods for computing uncertainty bounds became available. Here we report on an experimental implementation of uncertainty-based entanglement witnesses, benchmarked in a regime dominated by strong local noise. We combine the new computational method with a local noise tomography in order to design noise-adapted entanglement witnesses. This proof-of-principle experiment shows that quantum noise can be successfully handled by a fully quantum model in order to enhance entanglement detection efficiencies., Comment: 5+1 pages, 5+2 figures

Published
2018
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84. An Online Condition Monitoring Method of Single-Phase PWM Rectifier Based on Digital Twin

Author

Yang, Weiye, Hu, Cungang, Liu, Bi, Li, Haoran, Wang, Haitao, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Hu, Cungang, editor, Cao, Wenping, editor, Zhang, Pinjia, editor, Zhang, Zhenbin, editor, and Tang, Xi, editor

Published
2022
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85. A Direct Power Control of Single-Phase PWM Rectifiers Without Gird Voltage Sensor

Author

Huang, Wenwen, Hu, Cungang, Liu, Bi, Zhu, Wenjie, Rui, Tao, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Hu, Cungang, editor, Cao, Wenping, editor, Zhang, Pinjia, editor, Zhang, Zhenbin, editor, and Tang, Xi, editor

Published
2022
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97. Experimental validation of quantum steering ellipsoids and tests of volume monogamy relations

Author

Zhang, Chao, Cheng, Shuming, Li, Li, Liang, Qiu-Yue, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, Hall, Michael J. W., Wiseman, Howard M., and Pryde, Geoff J.

Subjects
Quantum Physics
Abstract

The set of all qubit states that can be steered to by measurements on a correlated qubit is predicted to form an ellipsoid---called the quantum steering ellipsoid---in the Bloch ball. This ellipsoid provides a simple visual characterisation of the initial 2-qubit state, and various aspects of entanglement are reflected in its geometric properties. We experimentally verify these properties via measurements on many different polarisation-entangled photonic qubit states. Moreover, for pure 3-qubit states, the volumes of the two quantum steering ellipsoids generated by measurements on the first qubit are predicted to satisfy a tight monogamy relation, which is strictly stronger than the well-known monogamy of entanglement for concurrence. We experimentally verify these predictions, using polarisation and path entanglement. We also show experimentally that this monogamy relation can be violated by a mixed entangled state, which nevertheless satisfies a weaker monogamy relation.

Published
2018
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98. Beating the channel capacity limit for superdense coding with entangled ququarts

Author

Hu, Xiao-Min, Guo, Yu, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Quantum superdense coding protocols enhance channel capacity by using shared quantum entanglement between two users. The channel capacity can be as high as 2 when one uses entangled qubits. However, this limit can be surpassed by using high-dimensional entanglement. We report an experiment that exceeds the limit using high-quality entangled ququarts with fidelities up to 0.98, demonstrating a channel capacity of $2.09\pm0.01$. The measured channel capacity is also higher than that obtained when transmitting only one ququart. We use the setup to transmit a five-color image with a fidelity of 0.952. Our experiment shows the great advantage of high-dimensional entanglement and will stimulate research on high-dimensional quantum information processes., Comment: Sci. Adv. 4, eaat9304 (2018)

Published
2018
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99. Experimental Realization of Sequential Weak Measurements of Arbitrary Non-commuting Pauli Observables

Author

Chen, Jiang-Shan, Hu, Meng-Jun, Hu, Xiao-Min, Liu, Bi-Heng, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can, and Zhang, Yong-Sheng

Subjects
Quantum Physics
Abstract

Sequential weak measurements of non-commuting observables is not only fundamentally interesting in quantum measurement but also shown potential in various applications. The previous reported methods, however, can only realize limited sequential weak measurements experimentally. In this Letter, we propose the realization of sequential measurements of arbitrary observables and experimentally demonstrate for the first time the measurement of sequential weak values of three non-commuting Pauli observables by using genuine single photons. The results presented here will not only improve our understanding of quantum measurement, e.g. testing quantum contextuality, macroscopic realism, and uncertainty relation, but also have many applications such as realizing counterfactual computation, direct process tomography, direct measurement of the density matrix and unbounded randomness certification., Comment: Comments are welcome!

Published
2018
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100. Experimental self-testing of entangled states

Author

Zhang, Wen-Hao, Chen, Geng, Peng, Xing-Xiang, Hu, Xiao-Min, Hou, Zhi-Bo, Yu, Shang, Ye, Xiang-Jun, Zou, Zong-Quan, Xu, Xiao-Ye, Tang, Jian-Shun, Xu, Jin-Shi, Han, Yong-Jian, Liu, Bi-Heng, Li, Chuan-Feng, and Guo, Guang-Can

Subjects
Quantum Physics
Abstract

Quantum entanglement is the key resource for quantum information processing. Device-independent certification of entangled states is a long standing open question, which arouses the concept of self-testing. The central aim of self-testing is to certify the state and measurements of quantum systems without any knowledge of their inner workings, even when the used devices cannot be trusted. Specifically, utilizing Bell's theorem, it is possible to place a boundary on the singlet fidelity of entangled qubits. Here, beyond this rough estimation, we experimentally demonstrate a complete self-testing process for various pure bipartite entangled states up to four dimensions, by simply inspecting the correlations of the measurement outcomes. We show that this self-testing process can certify the exact form of entangled states with fidelities higher than 99.9% for all the investigated scenarios, which indicates the superior completeness and robustness of this method. Our work promotes self-testing as a practical tool for developing quantum techniques.

Published
2018

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