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3,654 results on '"Zhao Kui"'

1. High-precision pulse calibration of tunable couplers for high-fidelity two-qubit gates in superconducting quantum processors

Author

Li, Tian-Ming, Zhang, Jia-Chi, Chen, Bing-Jie, Huang, Kaixuan, Liu, Hao-Tian, Xiao, Yong-Xi, Deng, Cheng-Lin, Liang, Gui-Han, Chen, Chi-Tong, Liu, Yu, Li, Hao, Bao, Zhen-Ting, Zhao, Kui, Xu, Yueshan, Li, Li, He, Yang, Liu, Zheng-He, Yu, Yi-Han, Zhou, Si-Yun, Liu, Yan-Jun, Song, Xiaohui, Zheng, Dongning, Xiang, Zhong-Cheng, Shi, Yun-Hao, Xu, Kai, and Fan, Heng

Subjects
Quantum Physics
Abstract

For superconducting quantum processors, stable high-fidelity two-qubit operations depend on precise flux control of the tunable coupler. However, the pulse distortion poses a significant challenge to the control precision. Current calibration methods, which often rely on microwave crosstalk or additional readout resonators for coupler excitation and readout, tend to be cumbersome and inefficient, especially when couplers only have flux control. Here, we introduce and experimentally validate a novel pulse calibration scheme that exploits the strong coupling between qubits and couplers, eliminating the need for extra coupler readout and excitation. Our method directly measures the short-time and long-time step responses of the coupler flux pulse transient, enabling us to apply predistortion to subsequent signals using fast Fourier transformation and deconvolution. This approach not only simplifies the calibration process but also significantly improves the precision and stability of the flux control. We demonstrate the efficacy of our method through the implementation of diabatic CZ and iSWAP gates with fidelities of $99.61\pm0.04\%$ and $99.82\pm0.02\%$, respectively, as well as a series of diabatic CPhase gates with high fidelities characterized by cross-entropy benchmarking. The consistency and robustness of our technique are further validated by the reduction in pulse distortion and phase error observed across multilayer CZ gates. These results underscore the potential of our calibration and predistortion method to enhance the performance of two-qubit gates in superconducting quantum processors., Comment: 16 pages, 11 figures, 7 tables

Published
2024

2. FoME: A Foundation Model for EEG using Adaptive Temporal-Lateral Attention Scaling

Author

Shi, Enze, Zhao, Kui, Yuan, Qilong, Wang, Jiaqi, Hu, Huawen, Yu, Sigang, and Zhang, Shu

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Signal Processing
Abstract

Electroencephalography (EEG) is a vital tool to measure and record brain activity in neuroscience and clinical applications, yet its potential is constrained by signal heterogeneity, low signal-to-noise ratios, and limited labeled datasets. In this paper, we propose FoME (Foundation Model for EEG), a novel approach using adaptive temporal-lateral attention scaling to address above-mentioned challenges. FoME is pre-trained on a diverse 1.7TB dataset of scalp and intracranial EEG recordings, comprising 745M parameters trained for 1,096k steps. Our model introduces two key innovations: a time-frequency fusion embedding technique and an adaptive time-lateral attention scaling (ATLAS) mechanism. These components synergistically capture complex temporal and spectral EEG dynamics, enabling FoME to adapt to varying patterns across diverse data streams and facilitate robust multi-channel modeling. Evaluations across four downstream tasks demonstrate FoME's superior performance in classification and forecasting applications, consistently achieving state-of-the-art results. To conclude, FoME establishes a new paradigm for EEG analysis, offering a versatile foundation that advances brain-computer interfaces, clinical diagnostics, and cognitive research across neuroscience and related fields. Our code will be available at https://github.com/1061413241/FoME.

Published
2024

3. Exploring Hilbert-Space Fragmentation on a Superconducting Processor

Author

Wang, Yong-Yi, Shi, Yun-Hao, Sun, Zheng-Hang, Chen, Chi-Tong, Wang, Zheng-An, Zhao, Kui, Liu, Hao-Tian, Ma, Wei-Guo, Wang, Ziting, Li, Hao, Zhang, Jia-Chi, Liu, Yu, Deng, Cheng-Lin, Li, Tian-Ming, He, Yang, Liu, Zheng-He, Peng, Zhen-Yu, Song, Xiaohui, Xue, Guangming, Yu, Haifeng, Huang, Kaixuan, Xiang, Zhongcheng, Zheng, Dongning, Xu, Kai, and Fan, Heng

Subjects
Quantum Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics
Abstract

Isolated interacting quantum systems generally thermalize, yet there are several counterexamples for the breakdown of ergodicity, such as many-body localization and quantum scars. Recently, ergodicity breaking has been observed in systems subjected to linear potentials, termed Stark many-body localization. This phenomenon is closely associated with Hilbert-space fragmentation, characterized by a strong dependence of dynamics on initial conditions. Here, we experimentally explore initial-state dependent dynamics using a ladder-type superconducting processor with up to 24 qubits, which enables precise control of the qubit frequency and initial state preparation. In systems with linear potentials, we observe distinct non-equilibrium dynamics for initial states with the same quantum numbers and energy, but with varying domain wall numbers. This distinction becomes increasingly pronounced as the system size grows, in contrast with disordered interacting systems. Our results provide convincing experimental evidence of the fragmentation in Stark systems, enriching our understanding of the weak breakdown of ergodicity., Comment: main text: 7 pages, 4 figures; supplementary: 13 pages, 14 figures

Published
2024

9. Precision Agriculture: Crop Mapping using Machine Learning and Sentinel-2 Satellite Imagery

Author

Zhao, Kui, Wu, Siyang, Liu, Chang, Wu, Yue, and Efremova, Natalia

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Food security has grown in significance due to the changing climate and its warming effects. To support the rising demand for agricultural products and to minimize the negative impact of climate change and mass cultivation, precision agriculture has become increasingly important for crop cultivation. This study employs deep learning and pixel-based machine learning methods to accurately segment lavender fields for precision agriculture, utilizing various spectral band combinations extracted from Sentinel-2 satellite imagery. Our fine-tuned final model, a U-Net architecture, can achieve a Dice coefficient of 0.8324. Additionally, our investigation highlights the unexpected efficacy of the pixel-based method and the RGB spectral band combination in this task.

Published
2023

10. Probing spin hydrodynamics on a superconducting quantum simulator

Author

Shi, Yun-Hao, Sun, Zheng-Hang, Wang, Yong-Yi, Wang, Zheng-An, Zhang, Yu-Ran, Ma, Wei-Guo, Liu, Hao-Tian, Zhao, Kui, Song, Jia-Cheng, Liang, Gui-Han, Mei, Zheng-Yang, Zhang, Jia-Chi, Li, Hao, Chen, Chi-Tong, Song, Xiaohui, Wang, Jieci, Xue, Guangming, Yu, Haifeng, Huang, Kaixuan, Xiang, Zhongcheng, Xu, Kai, Zheng, Dongning, and Fan, Heng

Subjects
Quantum Physics
Abstract

Characterizing the nature of hydrodynamical transport properties in quantum dynamics provides valuable insights into the fundamental understanding of exotic non-equilibrium phases of matter. Experimentally simulating infinite-temperature transport on large-scale complex quantum systems is of considerable interest. Here, using a controllable and coherent superconducting quantum simulator, we experimentally realize the analog quantum circuit, which can efficiently prepare the Haar-random states, and probe spin transport at infinite temperature. We observe diffusive spin transport during the unitary evolution of the ladder-type quantum simulator with ergodic dynamics. Moreover, we explore the transport properties of the systems subjected to strong disorder or a tilted potential, revealing signatures of anomalous subdiffusion in accompany with the breakdown of thermalization. Our work demonstrates a scalable method of probing infinite-temperature spin transport on analog quantum simulators, which paves the way to study other intriguing out-of-equilibrium phenomena from the perspective of transport., Comment: Main text: 13 pages, 5 figures; Supplementary: 17 pages, 16 figures, 1 table

Published
2023
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12. Are you in a Masquerade? Exploring the Behavior and Impact of Large Language Model Driven Social Bots in Online Social Networks

Author

Li, Siyu, Yang, Jin, and Zhao, Kui

Subjects
Computer Science - Social and Information Networks
Abstract

As the capabilities of Large Language Models (LLMs) emerge, they not only assist in accomplishing traditional tasks within more efficient paradigms but also stimulate the evolution of social bots. Researchers have begun exploring the implementation of LLMs as the driving core of social bots, enabling more efficient and user-friendly completion of tasks like profile completion, social behavior decision-making, and social content generation. However, there is currently a lack of systematic research on the behavioral characteristics of LLMs-driven social bots and their impact on social networks. We have curated data from Chirper, a Twitter-like social network populated by LLMs-driven social bots and embarked on an exploratory study. Our findings indicate that: (1) LLMs-driven social bots possess enhanced individual-level camouflage while exhibiting certain collective characteristics; (2) these bots have the ability to exert influence on online communities through toxic behaviors; (3) existing detection methods are applicable to the activity environment of LLMs-driven social bots but may be subject to certain limitations in effectiveness. Moreover, we have organized the data collected in our study into the Masquerade-23 dataset, which we have publicly released, thus addressing the data void in the subfield of LLMs-driven social bots behavior datasets. Our research outcomes provide primary insights for the research and governance of LLMs-driven social bots within the research community., Comment: 18 pages, 7 figures

Published
2023

14. Probing spin hydrodynamics on a superconducting quantum simulator

Author

Shi, Yun-Hao, Sun, Zheng-Hang, Wang, Yong-Yi, Wang, Zheng-An, Zhang, Yu-Ran, Ma, Wei-Guo, Liu, Hao-Tian, Zhao, Kui, Song, Jia-Cheng, Liang, Gui-Han, Mei, Zheng-Yang, Zhang, Jia-Chi, Li, Hao, Chen, Chi-Tong, Song, Xiaohui, Wang, Jieci, Xue, Guangming, Yu, Haifeng, Huang, Kaixuan, Xiang, Zhongcheng, Xu, Kai, Zheng, Dongning, and Fan, Heng

Published
2024
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19. Diamond-shaped evolution of the superconducting interference pattern in NbTiN weak-link Josephson junctions

Author

Zhao, Kui, Liu, Huaiyuan, Xiao, Jianfei, Tu, Linfeng, He, Jiangbo, Liu, Mingli, Jiang, Ruiyang, Jia, Zhongmou, Zhu, Shang, Shi, Yunteng, Ma, Yiwen, Lyu, Zhaozheng, Shen, Jie, Liu, Guangtong, Lu, Li, and Qu, Fanming

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Introducing an in-plane magnetic field into Josephson junctions is of fundamental significance in exploring a variety of interesting physical phenomena. However, extra care must be paid in realistic experiments involving an in-plane magnetic field, because trivial orbital effect due to, e.g., rippled structures can inevitably be introduced, which could produce false effect confusing the expected physical phenomena. In this work, we report a diamond-shaped evolution of the critical supercurrent in an in-plane magnetic field in NbTiN weak-link Josephson junctions. Upon application of an in-plane magnetic field perpendicular to the current, the superconducting interference pattern exhibits a characteristic evolution, which manifests as a diamond block diagram featured with each node opened and stretched out in a V-shape, mimicking the suppression-recovery patterns of critical supercurrent related to the Zeeman-driven 0-pi transition. However, the effect of Zeeman splitting plays a negligible role due to the relatively small magnetic field involved in our experiment. Therefore, we explore the trivial orbital effect of rippled structures and further take into account non-uniform current distributions pertaining in our junctions. We find that the ripples in combination with specific current distributions can give rise to a similar evolution pattern as the experimental observations. Our results serve as a caution that the combined effect of rippled structures and non-homogeneous current distributions should be taken seriously for experiments subjected by in-plane magnetic fields., Comment: 15pages,13 figures

Published
2023

20. A culture-dependent rapid detection method for gas-producing spoilage bacteria in vinegar and its application

Author

ZHOU Li, LIU Fang, ZHAO Kui, WANG Xingjie, YUAN Yinghao, LI Jianlong, HU Kaidi, LI Qin, and LIU Shuliang

Subjects
vinegar, gas producing and metamorphic bacteria, rapid detection methods, application, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectiveTo establish a culture-dependent rapid detection method for gas-producing spoilage bacteria in vinegar.MethodsOne kind of medium was screened out from six candidate media and modified. Then its specificity, accuracy, and sensitivity were determined, on which a detection method was proposed. This method was subsequently applied to assess heat sterilization conditions and preservative concentrations for vinegar products and to verify the detection effectiveness of vinegar products.ResultsA modified MRS medium that could specifically detect gas-producing spoilage bacteria in vinegar samples was proposed, with which negative results were obtained targeting at other 12 spoilage bacteria isolated from vinegar. The established method was adopted to examine 75 unknown vinegar samples and plastic bottle incubation method was used as control. Consistent results were obtained using both methods, however the detection rate of established method was 3-5 times faster than control, with a detection limit (initial bacterial count) ranging from 1 CFU to 10 CFU. The larger bacterial load is, the shorter detection time would be. And it will take only 1-2 d for high-contamination vinegar samples. Results also showed that sterilization at 75-85 ℃ for 5-15 min could effectively kill the gas-producing spoilage bacteria that is recalcitrant to common preservatives within their maximum allowable concentrations. The verification was in agreement with the actual situation.ConclusionThe constructed method features fast, specific, accurate, and sensitive. This study sheds light on detection and comprehensive control of gas-producing spoilage bacteria for vinegar enterprises.

Published
2024
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22. Detecting Camouflaged Social Bots Through Multi-level Aggregation and Information Encoding

Author

Wang, Ziyi, Zhao, Kui, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Zhang, Wenjie, editor, Tung, Anthony, editor, Zheng, Zhonglong, editor, Yang, Zhengyi, editor, Wang, Xiaoyang, editor, and Guo, Hongjie, editor

Published
2024
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24. Bi2O2Se nanowires presenting high mobility and strong spin-orbit coupling

Author

Zhao, Kui, Liu, Huaiyuan, Tan, Congwei, Xiao, Jianfei, Shen, Jie, Liu, Guangtong, Peng, Hailin, Lu, Li, and Qu, Fanming

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Systematic electrical transport characterizations were performed on high-quality Bi2O2Se nanowires to illustrate its great transport properties and further application potentials in spintronics. Bi2O2Se nanowires synthesized by chemical vapor deposition method presented a high field-effect mobility up to 1.34*104 cm2V-1s-1, and exhibited ballistic transport in the low back-gate voltage (Vg) regime where conductance plateaus were observed. When further increasing the electron density by increasing Vg, we entered the phase coherent regime and weak antilocalization (WAL) was observed. The spin relaxation length extracted from the WAL was found to be gate tunable, ranging from ~100 nm to ~250 nm and reaching a stronger spin-obit coupling (SOC) than the two-dimensional counterpart (flakes). We attribute the strong SOC and the gate tunability to the presence of a surface accumulation layer which induces a strong inversion asymmetry on the surface. Such scenario was supported by the observation of two Shubnikov-de Haas oscillation frequencies that correspond to two types of carriers, one on the surface, and the other in the bulk. The high-quality Bi2O2Se nanowires with a high mobility and a strong SOC can act as a very prospective material in future spintronics., Comment: 22 pages, 7 figures

Published
2022
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