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123 results on '"Tao, Ziyu"'

1. Floquet Engineering of Anisotropic Transverse Interactions in Superconducting Qubits

Author

Liang, Yongqi, Huang, Wenhui, Zhang, Libo, Tao, Ziyu, Tang, Kai, Chu, Ji, Qiu, Jiawei, Sun, Xuandong, Zhou, Yuxuan, Zhang, Jiawei, Zhang, Jiajian, Guo, Weijie, Liu, Yang, Chen, Yuanzhen, Liu, Song, Zhong, Youpeng, Niu, Jingjing, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Superconducting transmon qubits have established as a leading candidate for quantum computation, as well as a flexible platform for exploring exotic quantum phases and dynamics. However, physical coupling naturally yields isotropic transverse interactions between qubits, restricting their access to diverse quantum phases that require spatially dependent interactions. Here, we demonstrate the simultaneous realization of both pairing (XX-YY) and hopping (XX+YY) interactions between transmon qubits by Floquet engineering. The coherent superposition of these interactions enables independent control over the XX and YY terms, yielding anisotropic transverse interactions. By aligning the transverse interactions along a 1D chain of six qubits, as calibrated via Aharonov-Bohm interference in synthetic space, we synthesize a transverse field Ising chain model and explore its dynamical phase transition under varying external field. The scalable synthesis of anisotropic transverse interactions paves the way for the implementation of more complex physical systems requiring spatially dependent interactions, enriching the toolbox for engineering quantum phases with superconducting qubits., Comment: 7+14 pages; 4+12 figures

Published
2024

2. M2CS: A Microwave Measurement and Control System for Large-scale Superconducting Quantum Processors

Author

Zhang, Jiawei, Sun, Xuandong, Guo, Zechen, Yuan, Yuefeng, Zhang, Yubin, Chu, Ji, Huang, Wenhui, Liang, Yongqi, Qiu, Jiawei, Sun, Daxiong, Tao, Ziyu, Zhang, Jiajian, Guo, Weijie, Jiang, Ji, Linpeng, Xiayu, Liu, Yang, Ren, Wenhui, Niu, Jingjing, Zhong, Youpeng, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

As superconducting quantum computing continues to advance at an unprecedented pace, there is a compelling demand for the innovation of specialized electronic instruments that act as crucial conduits between quantum processors and host computers. Here, we introduce a Microwave Measurement and Control System (M2CS) dedicated for large-scale superconducting quantum processors. M2CS features a compact modular design that balances overall performance, scalability, and flexibility. Electronic tests of M2CS show key metrics comparable to commercial instruments. Benchmark tests on transmon superconducting qubits further show qubit coherence and gate fidelities comparable to state-of-the-art results, confirming M2CS's capability to meet the stringent requirements of quantum experiments run on intermediate-scale quantum processors. The system's compact and scalable design offers significant room for further enhancements that could accommodate the measurement and control requirements of over 1000 qubits, and can also be adopted to other quantum computing platforms such as trapped ions and silicon quantum dots. The M2CS architecture may also be applied to wider range of scenarios, such as microwave kinetic inductance detectors, as well as phased array radar systems.

Published
2024

3. In situ mixer calibration for superconducting quantum circuits

Author

Wu, Nan, Lin, Jing, Xie, Changrong, Guo, Zechen, Huang, Wenhui, Zhang, Libo, Zhou, Yuxuan, Sun, Xuandong, Zhang, Jiawei, Guo, Weijie, Linpeng, Xiayu, Liu, Song, Liu, Yang, Ren, Wenhui, Tao, Ziyu, Jiang, Ji, Chu, Ji, Niu, Jingjing, Zhong, Youpeng, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Mixers play a crucial role in superconducting quantum computing, primarily by facilitating frequency conversion of signals to enable precise control and readout of quantum states. However, imperfections, particularly carrier leakage and unwanted sideband signal, can significantly compromise control fidelity. To mitigate these defects, regular and precise mixer calibrations are indispensable, yet they pose a formidable challenge in large-scale quantum control. Here, we introduce an in situ calibration technique and outcome-focused mixer calibration scheme using superconducting qubits. Our method leverages the qubit's response to imperfect signals, allowing for calibration without modifying the wiring configuration. We experimentally validate the efficacy of this technique by benchmarking single-qubit gate fidelity and qubit coherence time., Comment: 9 pages, 7 figures

Published
2024

4. Noise-induced quantum synchronization and maximally entangled mixed states in superconducting circuits

Author

Tao, Ziyu, Schmolke, Finn, Hu, Chang-Kang, Huang, Wenhui, Zhou, Yuxuan, Zhang, Jiawei, Chu, Ji, Zhang, Libo, Sun, Xuandong, Guo, Zecheng, Niu, Jingjing, Weng, Wenle, Liu, Song, Zhong, Youpeng, Tan, Dian, Yu, Dapeng, and Lutz, Eric

Subjects
Quantum Physics
Abstract

Random fluctuations can lead to cooperative effects in complex systems. We here report the experimental observation of noise-induced quantum synchronization in a chain of superconducting transmon qubits with nearest-neighbor interactions. The application of Gaussian white noise to a single site leads to synchronous oscillations in the entire chain. We show that the two synchronized end qubits are entangled, with nonzero concurrence, and that they belong to a class of generalized Bell states known as maximally entangled mixed states, whose entanglement cannot be increased by any global unitary. We further demonstrate the stability against frequency detuning of both synchronization and entanglement by determining the corresponding generalized Arnold tongue diagrams. Our results highlight the constructive influence of noise in a quantum many-body system and uncover the potential role of synchronization for mixed-state quantum information science.

Published
2024

5. Coupler-Assisted Leakage Reduction for Scalable Quantum Error Correction with Superconducting Qubits

Author

Yang, Xiaohan, Chu, Ji, Guo, Zechen, Huang, Wenhui, Liang, Yongqi, Liu, Jiawei, Qiu, Jiawei, Sun, Xuandong, Tao, Ziyu, Zhang, Jiawei, Zhang, Jiajian, Zhang, Libo, Zhou, Yuxuan, Guo, Weijie, Hu, Ling, Jiang, Ji, Liu, Yang, Linpeng, Xiayu, Chen, Tingyong, Chen, Yuanzhen, Niu, Jingjing, Liu, Song, Zhong, Youpeng, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Superconducting qubits are a promising platform for building fault-tolerant quantum computers, with recent achievement showing the suppression of logical error with increasing code size. However, leakage into non-computational states, a common issue in practical quantum systems including superconducting circuits, introduces correlated errors that undermine QEC scalability. Here, we propose and demonstrate a leakage reduction scheme utilizing tunable couplers, a widely adopted ingredient in large-scale superconducting quantum processors. Leveraging the strong frequency tunability of the couplers and stray interaction between the couplers and readout resonators, we eliminate state leakage on the couplers, thus suppressing space-correlated errors caused by population propagation among the couplers. Assisted by the couplers, we further reduce leakage to higher qubit levels with high efficiency (98.1%) and low error rate on the computational subspace (0.58%), suppressing time-correlated errors during QEC cycles. The performance of our scheme demonstrates its potential as an indispensable building block for scalable QEC with superconducting qubits., Comment: 25 pages, 15 figures

Published
2024
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7. Interaction-induced topological pumping in a solid-state quantum system

Author

Tao, Ziyu, Huang, Wenhui, Niu, Jingjing, Zhang, Libo, Ke, Yongguan, Gu, Xiu, Lin, Ling, Qiu, Jiawei, Sun, Xuandong, Yang, Xiaohan, Zhang, Jiajian, Zhang, Jiawei, Zhao, Shuxiang, Zhou, Yuxuan, Deng, Xiaowei, Hu, Changkang, Hu, Ling, Li, Jian, Liu, Yang, Tan, Dian, Xu, Yuan, Yan, Tongxing, Chen, Yuanzhen, Lee, Chaohong, Zhong, Youpeng, Liu, Song, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

As the basis for generating multi-particle quantum correlations, inter-particle interaction plays a crucial role in collective quantum phenomena, quantum phase transitions, and quantum information processing. It can profoundly alter the band structure of quantum many-body systems and give rise to exotic topological phenomena. Conventional topological pumping, which has been well demonstrated in driven linear or noninteracting systems, may break down in the presence of strong interaction. However, the interplay between band topology and interaction could also induce emergent topological pumping of interacting particles, but its experimental realization has proven challenging. Here we demonstrate interaction-induced topological pumping in a solid-state quantum system comprising an array of 36 superconducting qubits. With strong interaction inherent in the qubits and site-resolved controllability of the lattice potential and hopping strength, we realize the topological Thouless pumping of single and two bounded particles. Beyond these topological phenomena with linear or noninteracting counterparts, we also observe topologically resonant tunneling and asymmetric edge-state transport of interacting particles. Our work creates a paradigm for multi-particle topological effects, and provides a new pathway to the study of exotic topological phenomena, many-body quantum transport, and quantum information transfer., Comment: 8+29 pages, 4+24 figures

Published
2023

8. Low-loss interconnects for modular superconducting quantum processors

Author

Niu, Jingjing, Zhang, Libo, Liu, Yang, Qiu, Jiawei, Huang, Wenhui, Huang, Jiaxiang, Jia, Hao, Liu, Jiawei, Tao, Ziyu, Wei, Weiwei, Zhou, Yuxuan, Zou, Wanjing, Chen, Yuanzhen, Deng, Xiaowei, Deng, Xiuhao, Hu, Changkang, Hu, Ling, Li, Jian, Tan, Dian, Xu, Yuan, Yan, Fei, Yan, Tongxing, Liu, Song, Zhong, Youpeng, Cleland, Andrew N., and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Scaling is now a key challenge in superconducting quantum computing. One solution is to build modular systems in which smaller-scale quantum modules are individually constructed and calibrated, and then assembled into a larger architecture. This, however, requires the development of suitable interconnects. Here, we report low-loss interconnects based on pure aluminium coaxial cables and on-chip impedance transformers featuring quality factors up to $8.1 \times 10^5$, which is comparable to the performance of our transmon qubits fabricated on single-crystal sapphire substrate. We use these interconnects to link five quantum modules with inter-module quantum state transfer and Bell state fidelities up to 99\%. To benchmark the overall performance of the processor, we create maximally-entangled, multi-qubit Greenberger-Horne-Zeilinger (GHZ) states. The generated inter-module four-qubit GHZ state exhibits 92.0\% fidelity. We also entangle up to 12 qubits in a GHZ state with $55.8 \pm 1.8\%$ fidelity, which is above the genuine multipartite entanglement threshold of 1/2. These results represent a viable modular approach for large-scale superconducting quantum processors.

Published
2023
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9. Experimental Realization of Two Qutrits Gate with Tunable Coupling in Superconducting Circuits

Author

Luo, Kai, Huang, Wenhui, Tao, Ziyu, Zhang, Libo, Zhou, Yuxuan, Chu, Ji, Liu, Wuxin, Wang, Biying, Cui, Jiangyu, Liu, Song, Yan, Fei, Yung, Man-Hong, Chen, Yuanzhen, Yan, Tongxing, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Gate-based quantum computation has been extensively investigated using quantum circuits based on qubits. In many cases, such qubits are actually made out of multilevel systems but with only two states being used for computational purpose. While such a strategy has the advantage of being in line with the common binary logic, it in some sense wastes the ready-for-use resources in the large Hilbert space of these intrinsic multi-dimensional systems. Quantum computation beyond qubits (e.g., using qutrits or qudits) has thus been discussed and argued to be more efficient than its qubit counterpart in certain scenarios. However, one of the essential elements for qutrit-based quantum computation, two-qutrit quantum gate, remains a major challenge. In this work, we propose and demonstrate a highly efficient and scalable two-qutrit quantum gate in superconducting quantum circuits. Using a tunable coupler to control the cross-Kerr coupling between two qutrits, our scheme realizes a two-qutrit conditional phase gate with fidelity 89.3% by combining simple pulses applied to the coupler with single-qutrit operations. We further use such a two-qutrit gate to prepare an EPR state of two qutrits with a fidelity of 95.5%. Our scheme takes advantage of a tunable qutrit-qutrit coupling with a large on:off ratio. It therefore offers both high efficiency and low cross talk between qutrits, thus being friendly for scaling up. Our work constitutes an important step towards scalable qutrit-based quantum computation., Comment: 15 pages, 12 figures

Published
2022
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14. Experimental realization of phase-controlled dynamics with hybrid digital-analog approach

Author

Tao, Ziyu, Zhang, Libo, Li, Xiaole, Niu, Jingjing, Luo, Kai, Yi, Kangyuan, Zhou, Yuxuan, Jia, Hao, Liu, Song, Yan, Tongxing, Chen, Yuanzhen, and Yu, Dapeng

Subjects
Quantum Physics
Abstract

Quantum simulation can be implemented in pure digital or analog ways, each with their pros and cons. By taking advantage of the universality of a digital route and the efficiency of analog simulation, hybrid digital-analog approaches can enrich the possibilities for quantum simulation. We use a unique hybrid approach to experimentally perform a quantum simulation of phase-controlled dynamics resulting from a closed-contour interaction (CCI) within certain multi-level systems in superconducting quantum circuits. Due to symmetry constraints, such systems cannot host an inherent CCI. Nevertheless, by assembling analog modules corresponding to their natural evolutions and specially designed digital modules constructed from standard quantum logic gates, we can bypass such constraints and realize an effective CCI in these systems. Based on this realization, we demonstrate a variety of related and interesting phenomena, including phase-controlled chiral dynamics, separation of chiral enantiomers, and a new mechanism to generate entangled states based on CCI., Comment: 13 pages, 11 figures

Published
2020
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15. Simulation of Higher-Order Topological Phases and Related Topological Phase Transitions in a Superconducting Qubit

Author

Niu, Jingjing, Yan, Tongxing, Zhou, Yuxuan, Tao, Ziyu, Li, Xiaole, Liu, Weiyang, Zhang, Libo, Liu, Song, Yan, Zhongbo, Chen, Yuanzhen, and Yu, Dapeng

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Higher-order topological phases give rise to new bulk and boundary physics, as well as new classes of topological phase transitions. While the realization of higher-order topological phases has been confirmed in many platforms by detecting the existence of gapless boundary modes, a direct determination of the higher-order topology and related topological phase transitions through the bulk in experiments has still been lacking. To bridge the gap, in this work we carry out the simulation of a two-dimensional second-order topological phase in a superconducting qubit. Owing to the great flexibility and controllability of the quantum simulator, we observe the realization of higher-order topology directly through the measurement of the pseudo-spin texture in momentum space of the bulk for the first time, in sharp contrast to previous experiments based on the detection of gapless boundary modes in real space. Also through the measurement of the evolution of pseudo-spin texture with parameters, we further observe novel topological phase transitions from the second-order topological phase to the trivial phase, as well as to the first-order topological phase with nonzero Chern number. Our work sheds new light on the study of higher-order topological phases and topological phase transitions., Comment: 8+8 pages; 4+7 figures

Published
2020
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18. Influence of Spatially Varied Soil Property on Train-Induced Soil-to-Column Vibration Transmission.

Author

Tu, Desi, Tao, Ziyu, Zheng, Bokai, Zou, Chao, and Hu, Jiahao

Abstract

The proximity of residential areas to traffic corridors has raised concerns among researchers regarding train-induced vibrations. Experimental studies have consistently shown variations in train-induced vibrations, which can be attributed to uncertainties and randomness in both the vibration source and propagation path. This study aims to investigate the influence factors and quantify their contributions to train-induced vibration variations through a comprehensive field measurement campaign and numerical simulations using random finite element models. During the field measurements, vibrations were recorded at the ground surface and the column base for a total of 53 passbys of the same type of metro train on parallel rail lines. Variations in train-induced vibrations caused by the source-to-receiver distance and spatially varied soil properties were analyzed and compared. Specifically, the investigation focused on the spatial variation of soil properties including elastic modulus, density and damping ratio in the topsoil and the second layer of clay, while simultaneously considering the influence of spatial variations of all three soil properties on the transmission of train-induced vibrations from the surface soil to the structural columns. Understanding these variations is crucial for the probabilistic assessment of building serviceability during train passbys. The findings of this research provide valuable insights for probabilistic prediction and evaluation of building vibration comfort. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Demonstrating Path-Independent Anyonic Braiding on a Modular Superconducting Quantum Processor

Author

Niu, Jingjing, primary, Li, Yishan, additional, Zhang, Libo, additional, Zhang, Jiajian, additional, Chu, Ji, additional, Huang, Jiaxiang, additional, Huang, Wenhui, additional, Nie, Lifu, additional, Qiu, Jiawei, additional, Sun, Xuandong, additional, Tao, Ziyu, additional, Wei, Weiwei, additional, Zhang, Jiawei, additional, Zhou, Yuxuan, additional, Chen, Yuanzhen, additional, Hu, Ling, additional, Liu, Yang, additional, Liu, Song, additional, Zhong, Youpeng, additional, Lu, Dawei, additional, and Yu, Dapeng, additional

Published
2024
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27. Investigation of Vibration Characteristics during Various Building Construction Stages under Train Operations.

Author

Hu, Jiahao, Zou, Chao, Chen, Ying, He, Lingshan, Wu, Jie, Tao, Ziyu, Liao, Changsheng, and Liu, Zhiwei

Subjects
BUILDING design & construction, BUILDING foundations, SOIL vibration, FINITE element method, FRAMING (Building), RAILROAD terminals
Abstract

In response to land use challenges, major urban centers have started implementing over-track building constructions above metro lines as a means of accommodating residents and workers. However, the continuous operation of trains can generate excessive vibrations that may negatively impact the overall living conditions for occupants residing in these structures. In this paper, vibration measurements were conducted on the soil and within a three-story frame structure building. Additionally, a three-dimensional finite element model of the track–soil–building was established. The wheel–rail contact force was incorporated as a dynamic load that varies with time to accurately simulate the vibration response induced by trains. According to the construction process of the over-track building, four construction stages were set up using the finite element model to study the impact of the construction stages on the vibration propagation from the soil to building structure. The results indicate that the presence of existing structures exerts a mitigating influence on soil vibrations. Pile foundation construction can effectively mitigate soil vibration to a significant extent. The findings provide references for the future development and design of over-track buildings. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Genetic analysis of potential biomarkers and therapeutic targets associated with ferroptosis from bronchopulmonary dysplasia

Author

Ma, Xiaoxue, primary, Tao, Ziyu, additional, Chen, Leiming, additional, Duan, Shaozhi, additional, Zhou, Guoping, additional, Ma, Yunxia, additional, Xiong, Zhenqin, additional, Zhu, Lan, additional, Ma, Xuejiao, additional, Mao, Yan, additional, Hu, Yifang, additional, Zeng, Ni, additional, Wang, Jimei, additional, Bao, Yunlei, additional, Luo, Fei, additional, Wu, Chuyan, additional, and Jiang, Feng, additional

Published
2023
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32. The repertoire of copy number alteration signatures in human cancer

Author

Tao, Ziyu, primary, Wang, Shixiang, additional, Wu, Chenxu, additional, Wu, Tao, additional, Zhao, Xiangyu, additional, Ning, Wei, additional, Wang, Guangshuai, additional, Wang, Jinyu, additional, Chen, Jing, additional, Diao, Kaixuan, additional, Chen, Fuxiang, additional, and Liu, Xue-Song, additional

Published
2023
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33. Low-loss interconnects for modular superconducting quantum processors

Author

Niu, Jingjing, primary, Zhang, Libo, additional, Liu, Yang, additional, Qiu, Jiawei, additional, Huang, Wenhui, additional, Huang, Jiaxiang, additional, Jia, Hao, additional, Liu, Jiawei, additional, Tao, Ziyu, additional, Wei, Weiwei, additional, Zhou, Yuxuan, additional, Zou, Wanjing, additional, Chen, Yuanzhen, additional, Deng, Xiaowei, additional, Deng, Xiuhao, additional, Hu, Changkang, additional, Hu, Ling, additional, Li, Jian, additional, Tan, Dian, additional, Xu, Yuan, additional, Yan, Fei, additional, Yan, Tongxing, additional, Liu, Song, additional, Zhong, Youpeng, additional, Cleland, Andrew N., additional, and Yu, Dapeng, additional

Published
2023
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34. Experimental Realization of Two Qutrits Gate with Tunable Coupling in Superconducting Circuits

Author

Luo, Kai, primary, Huang, Wenhui, additional, Tao, Ziyu, additional, Zhang, Libo, additional, Zhou, Yuxuan, additional, Chu, Ji, additional, Liu, Wuxin, additional, Wang, Biying, additional, Cui, Jiangyu, additional, Liu, Song, additional, Yan, Fei, additional, Yung, Man-Hong, additional, Chen, Yuanzhen, additional, Yan, Tongxing, additional, and Yu, Dapeng, additional

Published
2023
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36. The repertoire of copy number alteration signatures in human cancer

Author

Tao, Ziyu, primary, Wang, Shixiang, additional, Wu, Chenxu, additional, Wu, Tao, additional, Zhao, Xiangyu, additional, Ning, Wei, additional, Wang, Guangshuai, additional, Wang, Jinyu, additional, Chen, Jing, additional, Diao, Kaixuan, additional, Chen, Fuxiang, additional, and Liu, Xue-Song, additional

Published
2022
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38. Assessment of left ventricular function by spatio-temporal image correlation in fetuses with fetal growth restriction

Author

Tao Ziyu

Subjects
Fetal Growth Retardation, Fetal Heart, Heart Diseases, Pregnancy, Humans, Infant, Radiology, Nuclear Medicine and imaging, Female, Cardiology and Cardiovascular Medicine, Ultrasonography, Prenatal, Ventricular Function, Left
Abstract

To compare the evaluation of left ventricular function by spatio-temporal image correlation (STIC) between fetal growth restriction (FGR) fetuses and normal fetuses.Forty-two FGR fetuses and 50 normal fetuses with gestational age ranging from 28 to 35 weeks, were chosen for the study group and control group, respectively. The fetal heart was acquired using the STIC modality, beginning with a four-chamber view. A 7.5-12.5 s acquisition time and 20-35°angle of the acquisition were used for the acquisition. The resulting STIC dataset was saved for offline analysis. Ventricular volumes were measured using the Virtual Organ Computer-aided Analysis (VOCAL) mode, where the observer defines the contours of the ventricle and traces the endocardia. Stroke volume (SV) = end diastolic volume (EDV)-end systolic volume (ESV) and ejection fraction (EF) = SV/EDV × 100%. The data of the two groups were analyzed.(1) SV increased with fetal growth in both groups and was positively correlated with gestational age (p .01), whereas EF remained constant throughout gestation and had no correlation with gestational age (p .05). (2) There was no difference found in EF between the two groups, (p .05), SV was significantly lower in FGR group than those in the normal group (p .01).The STIC is a precise method for calculating fetal ventricular volume changes and functions. Reduced SV occurred at the initial stage of fetal deterioration before the discovery of abnormal EF in FGR fetuses, indicating cardiac dysfunction. SV could be a sensitive indicator of cardiac dysfunction. The use of EF to assess fetal cardiac function is not perfect.

Published
2022

45. UCSCXenaShiny: an R/CRAN package for interactive analysis of UCSC Xena data

Author

Wang, Shixiang, primary, Xiong, Yi, additional, Zhao, Longfei, additional, Gu, Kai, additional, Li, Yin, additional, Zhao, Fei, additional, Li, Jianfeng, additional, Wang, Mingjie, additional, Wang, Haitao, additional, Tao, Ziyu, additional, Wu, Tao, additional, Zheng, Yichao, additional, Li, Xuejun, additional, and Liu, Xue-Song, additional

Published
2021
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48. TCfinder: Robust tumor cell discrimination in scRNA-seq based on gene pathway activity

Author

Wu, Chenxu, Ning, Wei, Wu, Tao, Chen, Jing, Yao, Huizi, Tao, Ziyu, Zhao, Xiangyu, Diao, Kaixuan, Wang, Jinyu, Wang, Weiliang, Li, Xinxing, Song, Qianqian, and Liu, Xue-Song

Abstract

TCfinder is a tumor cell identification tool, based on pathway activity and deep neural network (DNN). Across different platforms of scRNA-seq datasets, TCfinder demonstrates robust identification efficiency. It outperforms existing tumor cell identification tools and performs under sparse data. TCfinder is freely available as an R package at: https://github.com/XSLiuLab/TCfinder.

Published
2024
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