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153 results on '"Shen, Jianwei"'

1. Coherent Dynamics of Charge Carriers in {\gamma}-InSe Revealed by Ultrafast Spectroscopy

Author

Shen, Jianwei, Liang, Jiayu, Zhao, Qixu, Jia, Menghui, Chen, Jinquan, Sun, Haitao, Yuan, Qinghong, Duan, Hong-Guang, Jha, Ajay, Yang, Yan, and Sun, Zhenrong

Subjects
Condensed Matter - Materials Science
Abstract

For highly efficient ultrathin solar cells, layered indium selenide (InSe), a van der Waals solid, has shown a great promise. In this paper, we study the coherent dynamics of charge carriers generation in {\gamma}-InSe single crystals. We employ ultrafast transient absorption spectroscopy to examine the dynamics of hot electrons after resonant photoexcitation. To study the effect of excess kinetic energy of electrons after creating A exciton (VB1 to CB transition), we excite the sample with broadband pulses centered at 600, 650, 700 and 750 nm, respectively. We analyze the relaxation and recombination dynamics in {\gamma}-InSe by global fitting approach. Five decay associated spectra with their associated lifetimes are obtained, which have been assigned to intraband vibrational relaxation and interband recombination processes. We extract characteristic carrier thermalization times from 1 to 10 ps. To examine the coherent vibrations accompanying intraband relaxation dynamics, we analyze the kinetics by fitting to exponential functions and the obtained residuals are further processed for vibrational analysis. A few key phonon coherences are resolved and ab-initio quantum calculations reveal the nature of the associated phonons. The wavelet analysis is employed to study the time evolution of the observed coherences, which show that the low-frequency coherences last for more than 5 ps. Associated calculations reveal that the contribution of the intralayer phonon modes is the key determining factor for the scattering between free electrons and lattice. Our results provide fundamental insights into the photophysics in InSe and help to unravel their potential for high-performance optoelectronic devices.

Published
2023

3. Privacy-Preserving Training of Tree Ensembles over Continuous Data

Author

Adams, Samuel, Choudhary, Chaitali, De Cock, Martine, Dowsley, Rafael, Melanson, David, Nascimento, Anderson C. A., Railsback, Davis, and Shen, Jianwei

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Most existing Secure Multi-Party Computation (MPC) protocols for privacy-preserving training of decision trees over distributed data assume that the features are categorical. In real-life applications, features are often numerical. The standard ``in the clear'' algorithm to grow decision trees on data with continuous values requires sorting of training examples for each feature in the quest for an optimal cut-point in the range of feature values in each node. Sorting is an expensive operation in MPC, hence finding secure protocols that avoid such an expensive step is a relevant problem in privacy-preserving machine learning. In this paper we propose three more efficient alternatives for secure training of decision tree based models on data with continuous features, namely: (1) secure discretization of the data, followed by secure training of a decision tree over the discretized data; (2) secure discretization of the data, followed by secure training of a random forest over the discretized data; and (3) secure training of extremely randomized trees (``extra-trees'') on the original data. Approaches (2) and (3) both involve randomizing feature choices. In addition, in approach (3) cut-points are chosen randomly as well, thereby alleviating the need to sort or to discretize the data up front. We implemented all proposed solutions in the semi-honest setting with additive secret sharing based MPC. In addition to mathematically proving that all proposed approaches are correct and secure, we experimentally evaluated and compared them in terms of classification accuracy and runtime. We privately train tree ensembles over data sets with 1000s of instances or features in a few minutes, with accuracies that are at par with those obtained in the clear. This makes our solution orders of magnitude more efficient than the existing approaches, which are based on oblivious sorting.

Published
2021

5. High Performance Logistic Regression for Privacy-Preserving Genome Analysis

Author

De Cock, Martine, Dowsley, Rafael, Nascimento, Anderson C. A., Railsback, Davis, Shen, Jianwei, and Todoki, Ariel

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

In this paper, we present a secure logistic regression training protocol and its implementation, with a new subprotocol to securely compute the activation function. To the best of our knowledge, we present the fastest existing secure Multi-Party Computation implementation for training logistic regression models on high dimensional genome data distributed across a local area network.

Published
2020

6. Progress on minimally invasive endoscopic treatment of superficial non-ampullary duodenal epithelial tumors

Author

Wang Jiaqi, Shao Xiaona, Shen Jianwei

Subjects
superficial non-ampullary duodenal epithelial tumor, early endoscopic diagnosis, endoscopic mucosal resection, endoscopic submucosal dissection, laparoscopic endoscopic surgery, complication, Medicine
Abstract

In recent years, with persistent development of endoscopic technology, the detection rate of superficial non-ampullary duodenal epithelial tumors (SNADETs) has been gradually increased. SNADETs which are identified during early stage rarely metastasize distantly. Consequently, early diagnosis and treatment of SNADETs are of significance. In this article, literature review was conducted at home and abroad, endoscopic resection technologies for SNADETs were analyzed and summarized, aiming to improve endoscopic minimally invasive treatment for SNADETs, enhance clinical efficacy and safety, elevate the quality of life and provide ideas and reference for subsequent in-depth research.

Published
2023
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10. Exponential Random Graph Model Perspective: Formation and Evolution of a Collaborative Innovation Network in China's New Energy Vehicle Industry.

Author

Song, Mengxing, Guo, Lingling, and Shen, Jianwei

Abstract

In light of the crucial role of collaborative R&D in advancing technology within the new energy vehicle industry, this study seeks to explore ways to overcome the barriers to technological innovation by establishing an effective collaborative innovation network. Utilizing joint patent-authorized data from China's new energy vehicles between 2005 and 2019, the collaborative innovation network was developed, and the Exponential Random Graph Model (ERGM) was employed to analyze its formation and evolution mechanisms. The results indicate that the network has undergone significant expansion, closely linked to strong national policy support and the active involvement of innovation participants. The network exhibits effects of expansion, transfer, and closure. External attribute analysis revealed the Matthew effect and geographical compatibility effect and found that organizational compatibility tends to foster complementary cooperation. The findings offer insights into optimizing collaborative innovation networks in the NEVs industry and suggest strategies for policymakers and industry players to promote collaborative innovation. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Design and analysis of a novel flexible variable stiffness damping mechanism for grinding electric spindle.

Author

Sheng, Lianchao, Xu, Mincui, Shen, Jianwei, Li, Wei, and Ye, Guo

Subjects
PERMANENT magnet motors, PERMANENT magnets, IMPACT loads, ENERGY storage
Abstract

The purpose of this research is to design a flexible variable stiffness damping mechanism to solve the load impact problem in the grinding process of permanent magnet electric spindle. Firstly, combined with the structure and usage scene of the grinding permanent magnet electric spindle, according to the design principles and technical indicators, a novel flexible variable stiffness vibration damping joint is proposed. Then the stiffness and energy storage model of the flexible variable stiffness damping mechanism is established, and the stiffness and energy storage characteristics of the mechanism are analyzed. The strength and dynamic characteristics of the flexible variable stiffness mechanism are analyzed by Ansys and Adams, respectively. Finally, an experimental platform for the comprehensive performance verification of the flexible variable stiffness damping mechanism is built to verify the dynamic characteristics and damping effect of the mechanism. The research results show that the designed flexible variable stiffness structure has better vibration damping effect and can improve the grinding performance of the permanent magnet electric spindle. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Impact of 9-Minute Withdrawal Time on the Adenoma Detection Rate: A Multicenter Randomized Controlled Trial

Author

Zhao, Shengbing, Yang, Xia, Wang, Shuling, Meng, Qianqian, Wang, Rundong, Bo, Lumin, Chang, Xin, Pan, Peng, Xia, Tian, Yang, Fan, Yao, Jun, Zheng, Jinghua, Sheng, Jianqiu, Zhao, Xiaojun, Tang, Shan, Wang, Yali, Wang, Yiping, Gong, Aixia, Chen, Weigang, Shen, Jianwei, Zhu, Xian, Wang, Shaofeng, Yan, Caiwen, Yang, Youlin, Zhu, Yangbei, Ma, Rui-Jun, Wang, Rong, Ma, Yingcai, Li, Zhaoshen, and Bai, Yu

Published
2022
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17. A simple method for characterization of the magnetic field in an ion trap using Be+ ions

Author

Shen, Jianwei, Borodin, Andrii, and Schiller, Stephan

Subjects
Quantum Physics
Abstract

We demonstrate a simple method for the determination of the magnetic field in an ion trap using laser-cooled Be+ ions. The method is not based on magnetic resonance and thus does not require delivering radiofrequency (RF) radiation to the trap. Instead, stimulated Raman spectroscopy is used, and only an easily generated optical sideband of the laser cooling wave is required. The d.c. magnetic vector, averaged over the Be+ ion ensemble, is determined. Furthermore, the field strength can be minimized and an upper limit for the field gradient can be determined. The resolution of the method is 0.04 G at present. The relevance for precision rovibrational spectroscopy of molecular hydrogen ions is briefly discussed.

Published
2014
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39. Monitoring and fault diagnosis system of wind–solar hybrid power station based on ZigBee and BP neural network

Author

Lu Yan and Shen Jianwei

Subjects
Artificial neural network, Computer science, business.industry, Mechanical Engineering, Real-time computing, Design plan, Cloud computing, 02 engineering and technology, 010502 geochemistry & geophysics, 021001 nanoscience & nanotechnology, Fault (power engineering), 01 natural sciences, Upload, Architecture, Hybrid power, 0210 nano-technology, business, 0105 earth and related environmental sciences, Data transmission
Abstract

The integration of real-time monitoring datas of wind-solar hybrid power stations was not high, and a design plan for monitoring system based on ZigBee and B/S architecture was proposed. The data acquisition module was based; a network centre based on B/S architecture was constructed with cloud hosting to process information uploaded and provide services for users through browser or WeChat. At the same time, the BP neural network was used to extract and analyse the fault data and fault type. It was verified by experiments that the system was highly automated with stable and reliable data transmission.

Published
2018

47. Activation of dioxygen by halocarbon ions

Author

Pradeep, T., Ma, Shuguang, Shen, Jianwei, Francisco, Joseph S., and Cooks, R. Graham

Subjects
Mass spectrometry -- Usage, Halocarbons -- Atomic properties, Oxygen -- Atomic properties, Chemicals, plastics and rubber industries
Abstract

Research is done on tandem mass spectrometry which is used to show that low energy collisions of ionized halocarbenes, including CBr2(super .+) and CBrCl(super .+), with molecular oxygen lead to decarbonation with formation of the dihalogen molecular cation and oxygenolysis yielding BrCO(super +). Insights into the energetics of the reactions of CBr2(super .+) with O2 are obtained from ab initio molecular orbital theory.

Published
2000

49. Adsorbate geometry distinction in arenethiols by ion/surface reactive collisions

Author

Pradeep, T., Evans, Chris, Shen, Jianwei, and Cooks, R. Graham

Subjects
Aromatic compounds -- Research, Monomolecular films -- Research, Adsorption -- Research, Chemicals, plastics and rubber industries
Abstract

Ion/surface reactive collisions and charge exchange leading to chemical sputtering are sensitive to chemisorbate structure of aromatic compounds. The differences in adsorption geometry were investigated using self-assembled monolayers of 1,2-, 1,3- and 1,4-benzenedimethanethiol adsorbed in gold and silver thin films as target surfaces. Results suggested that the difference in adsorbate geometry is due to the presence of aromatic C-H and S-H chains and an S-C-H bend from the gold monolayer and the absences of these in the silver monolayer.

Published
1999

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