Xiaohang Dong scite author profile

Xiaohang Dong

5Publications

26Citation Statements Received

76Citation Statements Given

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Affiliations

Zhengzhou University of Light Industry, Nanjing University of Aeronautics and Astronautics, Henan Polytechnic University

Publications

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Enhancing the Number of Modes in Metasurfaced Reverberation Chambers for Field Uniformity Improvement

Sun

et al. 2018

Sensors

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The use of metasurfaces to increase the number of modes, lower the operating frequency, and improve the field uniformity in reverberation chambers (RCs) is investigated in this paper. The method used to improve the field uniformity and decrease the resonance frequencies is based on increasing the number of modes by using the concept of subwavelength cavities. The resonance frequencies of a RC with metasurface wall are derived and expressed analytically in terms of macroscopic characteristics. Simulation of the reflection phase of the unit cell is then given as a guideline to choose the required microscopic parameters of the designed metasurface. The mode density in such subwavelength RCs is then obtained using a numerical eigenmode solver. Compared to traditional RCs, a much higher modal density is obtained at low frequencies. The standard deviation of the field uniformity in the test volume of the RC corresponding to different types of metasurface walls is finally compared. It is shown that by increasing the number of modes in the RC at the lower band, the operating frequency decreases and the field uniformity of the RC is improved.

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Rockburst mechanism and the law of energy accumulation and release in mining roadway: a case study

Guo

Wang

et al. 2022

Int J Coal Sci Technol

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The rockburst dynamic disasters in the process of deep coal mining become more and more serious. Taking the rockburst occurred in the 23130 working face of Yuejin Coal Mine as the engineering background, we study the characteristics of mining stress field around roadway, the plastic failure morphological characteristics of surrounding rock and the accumulation/release law of elastic energy before and after burst. An analysis model quantitatively describing the physical process of rockburst in the mining roadway is established, and the calculation method of dynamic release of elastic energy in the physical process of rockburst is educed. The mechanism of rockburst in mining roadway is revealed. The results show that an “L-shaped” stress concentration zone is formed within 100 m of the 23130 working face, and the principal stress ratio of the surrounding rock of the transportation roadway is 2.59–4.26. The change of the direction of the maximum principal stress has a significant effect on the burst appearance characteristics. The failure strength of different sections of the mining roadway is characterized by the elastic energy release value. With the increase of the working face distance, the elastic energy released by burst failure and the expansion variation of failure boundary radius show a nonlinear variation law that tends to decrease steadily after sharp fluctuation. The closer to the working face, the higher the burst risk. At a distance of 10 m from the working surface, the maximum principal stress reaches its maximum value. The butterfly-shaped failure system generated by the surrounding rock of the roadway has energy self-sustainability, and the elastic energy released by the sudden expansion of the butterfly leaf is enough to cause a burst damage of 1.9 magnitude. This work could provide theoretical support for the prediction and prevention of rockburst.

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Generation of Ultra-Wideband Multi-Mode Vortex Waves Based on Monolayer Reflective Metasurface

Dong¹,

Sun²,

Gu³

et al. 2019

PIER M

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In this paper, a monolayer metasurface that can simultaneously generate multi-mode vortex waves in ultra-wideband is proposed. Smooth phase variation is obtained by properly assigning the arm lengths of arrow-shaped metal on the top of the reflective metasurface unit cell. Different reflective cells are arranged in different sectors to form a phase-shifted surface that can convert a linearly polarized plane wave into a vortex wave. The full-wave simulations show that the designed reflective metasurface can generate vortex wave with multi-mode in ultra-wideband from 18 GHz to 42 GHz, which is in good agreement with the theoretical analysis. The proposed reflective metasurface paves an effective approach to generate vortex wave with multi-mode in ultra-wideband for OAM-based systems. Compared to the traditional ways of generating vortex waves, our design has the advantage of wide bandwidth.

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Multiple Vortex Electromagnetic Wave Generation Based on Ultra-Wideband Reflective Metasurface

Dong

Sun

et al. 2018

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Reflective metasurface for generating vortex wave in ultra-wideband

Dong

Sun

et al. 2018

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Xiaohang Dong

Enhancing the Number of Modes in Metasurfaced Reverberation Chambers for Field Uniformity Improvement

Rockburst mechanism and the law of energy accumulation and release in mining roadway: a case study

Generation of Ultra-Wideband Multi-Mode Vortex Waves Based on Monolayer Reflective Metasurface

Multiple Vortex Electromagnetic Wave Generation Based on Ultra-Wideband Reflective Metasurface

Reflective metasurface for generating vortex wave in ultra-wideband

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