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219 results on '"Hu, Zhiyi"'

1. Four-order power reduction in nanoscale electron-nuclear double resonance with a nitrogen-vacancy center in diamond

Author

Hu, Zhiyi, Jiang, Fengjian, He, Jingyan, Dai, Yulin, Wang, Ya, Xu, Nanyang, and Du, Jiangfeng

Subjects
Quantum Physics
Abstract

Detecting nuclear spins using single Nitrogen-Vacancy (NV) centers is of particular importance in nano-scale science and engineering, but often suffers from the heating effect of microwave fields for spin manipulation, especially under high magnetic fields. Here, we realize an energy-efficient nano-scale nuclear-spin detection using a phase-modulation electron-nuclear double resonance scheme. The microwave field can be reduced to 1/250 of previous requirements and the corresponding power is over four orders lower. Meanwhile, the microwave-induced broadening to the line-width of the spectroscopy is significantly canceled and we achieve a nuclear-spin spectrum with a resolution down to 2.1 kHz under a magnetic field at 1840 Gs. The spectral resolution can be further improved by upgrading the experimental control precision. This scheme can also be used in sensing microwave fields and extended to a wide range of applications in the future.

Published
2024
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2. Direct Readout of Nitrogen-Vacancy Hybrid-Spin Quantum Register in Diamond by Photon Arrival Time Analysis

Author

He, Jingyan, Tian, Yu, Hu, Zhiyi, Ye, Runchuan, Wang, Xiangyu, Lu, Dawei, and Xu, Nanyang

Subjects
Quantum Physics
Abstract

Quantum state readout plays a pivotal role in quantum technologies, spanning applications in sensing, computation, and secure communication. In this work, we introduce a new approach for efficiently reading populations of hybrid-spin states in the nitrogen-vacancy center of diamond using a single laser pulse, which utilizes the excited state level anti-crossing mechanism at around 500 Gs. Reading spin state populations through this approach achieves the same outcome as traditional quantum state diagonal tomography but significantly reduces the experimental time by an order of magnitude while maintaining fidelity. Moreover, this approach may be extended to encompass full-state tomography, thereby obviating the requirement for a sequence of spin manipulations and mitigating errors induced by decoherence throughout the procedure.

Published
2024
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6. Studies on Low Frequency and Broadband Anechoic Termination Design

Author

Hu, Fucai, Hu, Zhiyi, Chen, Xiaoqiong, Zhang, Linke, Zhang, Xiaoqi, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Rui, Xiaoting, editor, and Liu, Caishan, editor

Published
2024
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14. Strong Ferromagnetism Achieved via Breathing Lattices in Atomically Thin Cobaltites

Author

Li, Sisi, Zhang, Qinghua, Lin, Shan, Sang, Xiahan, Need, Ryan F., Roldan, Manuel A., Cui, Wenjun, Hu, Zhiyi, Jin, Qiao, Chen, Shuang, Zhao, Jiali, Wang, Jia-Ou, Wang, Jiesu, He, Meng, Ge, Chen, Wang, Can, Lu, Hui-Bin, Wu, Zhenping, Guo, Haizhong, Tong, Xin, Zhu, Tao, Kirby, Brian, Gu, Lin, Jin, Kui-juan, and Guo, Er-Jia

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Physics - Applied Physics
Abstract

Low-dimensional quantum materials that remain strongly ferromagnetic down to mono layer thickness are highly desired for spintronic applications. Although oxide materials are important candidates for next generation of spintronic, ferromagnetism decays severely when the thickness is scaled to the nano meter regime, leading to deterioration of device performance. Here we report a methodology for maintaining strong ferromagnetism in insulating LaCoO3 (LCO) layers down to the thickness of a single unit cell. We find that the magnetic and electronic states of LCO are linked intimately to the structural parameters of adjacent "breathing lattice" SrCuO2 (SCO). As the dimensionality of SCO is reduced, the lattice constant elongates over 10% along the growth direction, leading to a significant distortion of the CoO6 octahedra, and promoting a higher spin state and long-range spin ordering. For atomically thin LCO layers, we observe surprisingly large magnetic moment (0.5 uB/Co) and Curie temperature (75 K), values larger than previously reported for any mono layer oxide. Our results demonstrate a strategy for creating ultra thin ferromagnetic oxides by exploiting atomic hetero interface engineering,confinement-driven structural transformation, and spin-lattice entanglement in strongly correlated materials., Comment: 24 pages, 5 figures, 1 supporting information with 13 figures

Published
2020

15. Pulse-width-induced polarization enhancement of optically-pumped N-V electron spin in diamond

Author

Song, Yumeng, Tian, Yu, Hu, Zhiyi, Zhou, Feifei, Xing, Tengteng, Lu, Dawei, Chen, Bing, Wang, Ya, Xu, Nanyang, and Du, Jiangfeng

Subjects
Quantum Physics
Abstract

The nitrogen-vacancy (N-V) center in diamond is a widely-used platform for quantum information processing and metrology. The electron-spin state of N-V center could be initialized and readout optically, and manipulated by resonate microwave fields. In this work, we analyze the dependence of electron-spin initialization on widths of laser pulses. We build a numerical model to simulate this process and verify the simulation results in experiment. Both simulations and experiments reveal a fact that shorter laser pulses are helpful to the electron-spin polarization. We therefore propose to use extremely-short laser pulses for electron-spin initialization. In this new scheme, the spin-state contrast could be improved about 10% in experiment by using laser pulses as short as 4 ns in width. Furthermore, we provide a mechanism to explain this effect which is due to the occupation time in the meta-stable spin-singlet states of N-V center. Our new scheme is applicable in a broad range of NV-based applications in the future., Comment: 7 pages, 4 figures

Published
2019

24. Immune rebalancing at the maternal-fetal interface of maternal SARS-CoV-2 infection during early pregnancy

Author

Xi, Chenxiang, primary, Yan, Zihui, additional, Bai, Dandan, additional, Zhang, Yalin, additional, Wang, Beiying, additional, Han, Xiao Xiao, additional, Wu, Li, additional, Shi, Xiaohui, additional, Hu, Zhiyi, additional, Tang, Ming, additional, Su, Zhongqu, additional, Liu, Yingdong, additional, Liu, Binya, additional, Yin, Jiqing, additional, Wang, Hong, additional, Li, Xiaocui, additional, Zhang, Yanping, additional, Gao, Shaorong, additional, and Liu, Wenqiang, additional

Published
2024
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28. Body, space, and time in virtual reality leisure experience: a phenomenological inquiry.

Author

Zhou, Chunyan, Hu, Zhiyi, Wang, Jingchao, and Wang, Philip

Subjects
*VIRTUAL reality, *LEISURE, *SOMATIC sensation
Abstract

Leisure takes its action in space and time. Virtual reality manipulates this spatiotemporal premise to imitate a leisure experience. This study examined virtual leisure from a phenomenological perspective and with a phenomenological method. A model of virtual leisure experience involving the body, space, and time was postulated. Results showed that virtual reality is distinguishable from reality by its technologically mediated consciousness. The physical body is a connector by which the real and the virtual penetrate each other. The virtual space encases a corporeal body, a habitual body, and a body in technology. Time in virtual reality is condensed into a personal time that the body intuits and an impersonal time that the body remembers. Matters regarding consciousness of VR body, space, and time and meaningful leisure in an increasingly virtual world were discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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29. VICTR: Venous transit time imaging by changes in T1 relaxation.

Author

Shi, Wen, Jiang, Dengrong, Hu, Zhiyi, Yedavalli, Vivek, Ge, Yulin, Moghekar, Abhay, and Lu, Hanzhang

Subjects
CEREBRAL circulation, CEREBRAL veins, BLOOD flow, CONTRAST media
Abstract

Purpose: Abnormalities in cerebral veins are a common finding in many neurological diseases, yet there is a scarcity of MRI techniques to assess venous hemodynamic function. The present study aims to develop a noncontrast technique to measure a novel blood flow circulatory measure, venous transit time (VTT), which denotes the time it takes for water to travel from capillary to major veins. Methods: The proposed sequence, venous transit time imaging by changes in T1 relaxation (VICTR), is based on the notion that as water molecules transition from the tissue into the veins, they undergo a change in T1 relaxation time. The validity of the measured VTT was tested by studying the VTT along the anatomically known flow trajectory of venous vessels as well as using a physiological vasoconstrictive challenge of caffeine ingestion. Finally, we compared the VTT measured with VICTR MRI to a bolus‐tracking method using gadolinium‐based contrast agent. Results: VTT was measured to be 3116.3 ± 326.0 ms in the posterior superior sagittal sinus (SSS), which was significantly longer than 2865.0 ± 390.8 ms at the anterior superior sagittal sinus (p = 0.004). The test–retest assessment showed an interclass correlation coefficient of 0.964. VTT was significantly increased by 513.8 ± 239.3 ms after caffeine ingestion (p < 0.001). VTT measured with VICTR MRI revealed a strong correlation (R = 0.84, p = 0.002) with that measured with the contrast‐based approach. VTT was found inversely correlated to cerebral blood flow and venous oxygenation across individuals. Conclusion: A noncontrast MRI technique, VICTR MRI, was developed to measure the VTT of the brain. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Suppressing Thermal Noise to Sub-Millikelvin Level in a Single-Spin Quantum System Using Realtime Frequency Tracking.

Author

Hu, Zhiyi, He, Jingyan, Ye, Runchuan, Lin, Xue, Zhou, Feifei, and Xu, Nanyang

Subjects
ELECTRON paramagnetic resonance, THERMAL noise, NUCLEAR spin, MAGNETIC fields, MAGNETIC sensors
Abstract

A single nitrogen-vacancy (NV) center in a diamond can be used as a nanoscale sensor for magnetic field, electric field or nuclear spins. Due to its low photon detection efficiency, such sensing processes often take a long time, suffering from an electron spin resonance (ESR) frequency fluctuation induced by the time-varying thermal perturbations noise. Thus, suppressing the thermal noise is the fundamental way to enhance single-sensor performance, which is typically achieved by utilizing a thermal control protocol with a complicated and highly costly apparatus if a millikelvin-level stabilization is required. Here, we analyze the real-time thermal drift and utilize an active way to alternately track the single-spin ESR frequency drift in the experiment. Using this method, we achieve a temperature stabilization effect equivalent to sub-millikelvin (0.8 mK) level with no extra environmental thermal control, and the spin-state readout contrast is significantly improved in long-lasting experiments. This method holds broad applicability for NV-based single-spin experiments and harbors the potential for prospective expansion into diverse nanoscale quantum sensing domains. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Smart Custom Package Decision for Mobile Internet Services

Author

Yang, Zhian, Zheng, Cong, Jiang, Hao, Zeng, Yuanyuan, Hu, Zhiyi, Du, Wen, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, and Qiu, Meikang, editor

Published
2019
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35. Brain Frontal-Lobe Misery Perfusion in COVID-19 ICU Survivors: An MRI Pilot Study

Author

Song, Jie, primary, Khanduja, Shivalika, additional, Rando, Hannah, additional, Shi, Wen, additional, Hazel, Kaisha, additional, Pottanat, George Paul, additional, Jones, Ebony, additional, Xu, Cuimei, additional, Hu, Zhiyi, additional, Lin, Doris, additional, Yasar, Sevil, additional, Lu, Hanzhang, additional, Cho, Sung-Min, additional, and Jiang, Dengrong, additional

Published
2024
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49. Development and Clinical Trial of a New Orthopedic Surgical Robot for Positioning and Navigation

Author

Chang, Jie, primary, Yu, Lipeng, additional, Li, Qingqing, additional, Wang, Boyao, additional, Yang, Lei, additional, Cheng, Min, additional, Wang, Feng, additional, Zhang, Long, additional, Chen, Lei, additional, Li, Kun, additional, Liang, Liang, additional, Zhou, Wei, additional, Cai, Weihua, additional, Ren, Yongxin, additional, Hu, Zhiyi, additional, Huang, Zhenfei, additional, Sui, Tao, additional, Fan, Jin, additional, Wang, Junwen, additional, Li, Bo, additional, Cao, Xiaojian, additional, and Yin, Guoyong, additional

Published
2022
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