Wenxiong Peng scite author profile

Wenxiong Peng

5Publications

52Citation Statements Received

37Citation Statements Given

How they've been cited

154

How they cite others

126

Affiliations

Chongqing University, State Grid Corporation of China (China)

Publications

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Full spatial-field visualization of gas temperature in an air micro-glow discharge by calibrated Schlieren photography

Xiong

Wang

et al. 2018

J. Phys. D: Appl. Phys.

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Gas temperature is an important basic parameter for both fundamental research and applications of plasmas. In this work, efforts were made to visualize the full spatial field of gas temperature (T g ) in a microdischarge with sharp T g gradients by a method of calibrated Schlieren (CS) photography. Compared to other two typical diagnostic approaches, optical emission spectroscopy (OES) and Rayleigh scattering, the proposed CS method exhibits the ability to capture the whole field of gas temperature using a single Schlieren image, even the discharge is of non-luminous zones like Faraday dark space (FDS). The image shows that the T g field in the studied micro-glow air discharge expands quickly with the increase of discharge currents, especially in the cathode region. The two-dimensional maps of gas temperature display a 'W-shape' with sharp gradients in both areas of negative and positive glows, slightly arched distributions in the positive column, and cooling zones in the FDS. The obtained T g fields show similar patterns to that of the discharge luminance. With an increase in discharge currents, more electric energy is dissipated by heating air gas and inducing constriction of the low-temperature FDS. Except in the vicinities of electrode boundaries, due to the interference from optical diffraction, the estimated gas temperature distributions are of acceptable accuracy, confirmed by the approaches of OES and UV Rayleigh scattering.

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Non-intrusive load monitoring using factorial hidden markov model based on adaptive density peak clustering

Wang

Peng

et al. 2021

Energy and Buildings

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Analyzing broadband tunable metamaterial absorbers by using the symmetry model

et al. 2021

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In this paper, a broadband tunable absorber based on bulk Dirac semimetal (BDS) in the far-infrared regime is studied. By optimizing the Femi energy and geometric size, the structure can achieve absorption levels greater than 90% in the 8.11-13.94 THz range, with a total thickness of 5.1 µm. Further, the bandwidth of this proposed absorber can be dynamically controlled by changing the Femi energy of the BDS instead of geometry. Meanwhile, the polarization and oblique incident angles in the TE and TM electromagnetic waves are also investigated. Finally, a new symmetry model is adopted to analyze the absorption mechanism, which is the innovation of this paper. This research result may provide potential applications for all types of optical photovoltaic devices and tunable biological chemistry sensors.

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Adaptive modeling for Non-Intrusive Load Monitoring

Wang

Peng

et al. 2022

International Journal of Electrical Power & Energy Systems

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Polarization-insensitive composite gradient-index metasurface array for microwave power reception

Yang

Xiong

Deng

et al. 2023

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A composite gradient-index metasurface (C-GM) array for microwave power reception (MPR) operating at 5.8 GHz center frequency was introduced. The array is insensitive to the polarization of incident plane waves and possesses cosine gradient modulation characteristics, which can convert the incident plane waves into surface waves focused at the center of the array. The focused surface wave energy is then collected by an omnidirectional antenna and fed back to a single rectifier for radio frequency (RF) to direct current (DC) conversion, resulting in DC output. Simulation results show that the array can fully excite surface waves under different polarized plane wave excitations, and the omnidirectional antenna has good matching characteristics with the array, achieving an energy collection efficiency of 66.52%. The array was fabricated and measured, achieving an energy reception efficiency of 59.91% and an RF-DC conversion efficiency of 34.83%, which is consistent with the simulation results. The proposed C-GM array can capture higher electromagnetic power by simply increasing its size, without the need for additional rectifiers or complex matching networks, making it a flexible and efficient MPR solution for different application scenarios.

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Wenxiong Peng

Full spatial-field visualization of gas temperature in an air micro-glow discharge by calibrated Schlieren photography

Non-intrusive load monitoring using factorial hidden markov model based on adaptive density peak clustering

Analyzing broadband tunable metamaterial absorbers by using the symmetry model

Adaptive modeling for Non-Intrusive Load Monitoring

Polarization-insensitive composite gradient-index metasurface array for microwave power reception

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