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128 results on '"Shi, Xinzheng"'

1. The differences in the origination and properties of the near-Earth solar wind between solar cycles 23 and 24

Author

Shi, Xinzheng, Fu, Hui, Huang, Zhenghua, Yan, Limei, Ma, Chi, Huangfu, Chenxi, Song, Hongqiang, and Xia, Lidong

Subjects
Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics
Abstract

The dependence of the sources and properties of the near-Earth solar wind on solar cycle activity is an important issue in solar and space physics. We use the improved two-step mapping procedure that takes into account the initial acceleration processes to trace the near-Earth solar winds back to their source regions from 1999 to 2020, covering solar cycles (SCs) 23 and 24. Then the solar wind is categorized into coronal hole (CH), active region (AR), and quiet Sun (QS) solar wind based on the source region types. We find that the proportions of CH and AR (QS) wind during SC 23 are higher (lower) than those during SC 24. During solar maximum and declining phases, the magnetic field strength, speed, helium abundance (AHe), and charge states of all three types of solar wind during SC 23 are generally higher than those during SC 24. During solar minimum, these parameters of solar wind are generally lower during SC 23 than those during SC 24. There is a significant decrease in the charge states of all three types of solar wind during the solar minimum of SC 23. The present statistical results demonstrate that the sources and properties of the solar wind are both influenced by solar cycle amplitude. The temperatures of AR, QS, and CH regions exhibit significant difference at low altitudes, whereas they are almost uniform at high altitudes., Comment: 21 pages, 11 figures

Published
2024

2. The contribution and FIP bias of three types of materials inside ICMEs associated with different flare intensities

Author

Fu, Hui, Shi, Xinzheng, Huang, Zhenghua, Qi, Youqian, and Xia, Lidong

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The studies on the origination and generation mechanisms of ICME materials are crucial for understanding the connection between CMEs and flares. The materials inside ICMEs can be classified into three types, coming from corona directly (corona-materials), heated by magnetic reconnection in corona (heated-corona-materials), and generated by chromospheric evaporation (chromospheric-evaporation-materials). Here, the contribution and First Ionization Potential (FIP) bias of three types of materials inside ICMEs associated with different flare intensities are analyzed and compared. We find that the speeds and scales of near-Earth ICMEs both increase with flare intensities. The proportions of heated-corona-materials are nearly constant with flare intensities. The contributions of corona-materials (chromospheric-evaporation-materials) are significantly decreased (increased) with flare intensities. More than two-thirds of materials are chromospheric-evaporation-materials for ICMEs associated with strong flares. The FIP bias of corona-materials and heated-corona-materials is almost the same. The FIP bias of chromospheric-evaporation-materials is significantly higher than that of corona-materials and heated-corona-materials, and it is increased with flare intensities. The above characteristics of FIP bias can be explained reasonably by the origination and generation mechanisms of three types of ICME materials. The present study demonstrates that the origination and generation mechanisms of ICME materials are significantly influenced by flare intensities. The reasons for the elevation of FIP bias, if ICMEs are regarded as a whole, are that the FIP bias of chromospheric-evaporation-materials is much higher, and the chromospheric-evaporation-materials contributed significantly to the ICMEs which associated with strong flares., Comment: 12 pages, 3 figures, accepted for publication in ApJ

Published
2023

14. External financing, technological changes, and employees.

Author

Kim, E Han, Li, Yuan, Lu, Yao, and Shi, Xinzheng

Subjects
SEASONED equity offerings, BUDGET
Abstract

Using exogenous shocks on the ability to issue seasoned equity offerings (SEOs), we show SEOs lead to a higher employee skill composition, that is, a lower (higher) proportion of low (high) skilled workers. The decrease in low-skilled workers exceeds the increase in high-skilled workers, resulting in reduced employment at the firm level. These effects are more significant when firms invest more in technology following SEOs and face greater financial constraints before SEOs, suggesting that SEOs relieve budget constraints on technology investments. These findings demonstrate that while external equity financing helps upgrade technology to improve productivity, it has a dark side for low-skilled workers. [ABSTRACT FROM AUTHOR]

Published
2024
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23. How Does Improvement in Commuting Affect Employees? Evidence from a Natural Experiment.

Author

Lu, Yao, Shi, Xinzheng, Sivadasan, Jagadeesh, and Xu, Zhufeng

Subjects
SUBWAY stations, PUBLIC transit, COMMUTING, PANEL analysis, STANDARD deviations
Abstract

We collect worker month-level panel data from two companies in Beijing for a two-year period before and after the opening of a nearby subway station, which significantly improved public transportation commutes for some workers. We find a significant difference-in-differences increase (12.6% of the standard deviation) in bonus pay, which is strongly correlated to worker-level performance measures, for affected workers relative to unaffected coworkers. We find no evidence that the improved performance is a result of affected workers spending extra time at the workplace. We find suggestive evidence for a relative decline in turnover, consistent with a gain in utility for affected workers. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Determining indentation fracture toughness of ceramics by finite element method using virtual crack closure technique

Author

Lizhi Wang, Chen Wei, Dejun Ma, Liang Sun, Shi Xinzheng, and Jialiang Wang

Subjects
Materials science, Mechanical Engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, Finite element method, Crack closure, chemistry.chemical_compound, 020303 mechanical engineering & transports, Fracture toughness, 0203 mechanical engineering, Silicon nitride, chemistry, Mechanics of Materials, Indentation, visual_art, visual_art.visual_art_medium, General Materials Science, Ceramic, Composite material, 0210 nano-technology, Elastic modulus, Stress intensity factor
Abstract

Based on indentation cracks produced by Vickers indentation tests on Silicon Nitride and Fused Silica, fracture toughness (KIC) of the two materials was determined by a Vickers indentation finite element model using virtual crack closure technique (VCCT). The elastic modulus and yield stress of the materials needed in finite element simulation were determined by using dimensionless expressions specially established for ceramic materials, which revealed the approximate numerical relationship between indentation responses and elastoplastic properties of ceramic materials. Computed KIC was obtained by calculating the stress intensity factor (KI) at crack tip. Considering that the calculated stress intensity factor (KI) varied distinctly along an ideal semi-circle crack front, the equi-KI crack front was acquired through successive simulation and adjustment. By comparison, the computed KIC values of equi-KI crack fronts were in good consistence with the reference KIC of the two materials, while those of the semi-circle crack fronts presented significant errors. The results indicated that indentation fracture toughness could be well determined by employing finite element method (FEM) and VCCT, and the obtainment of equi-KI crack front was crucial to the accuracy of computed fracture toughness.

Published
2018
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