Hongxing Zheng scite author profile

This paper presents a full wave simulation and characteristic mode-based design of a multiple-input-multiple-output (MIMO) antenna at 5.8 GHz for wireless local area network applications. The driven analysis comprises two antennas that are placed orthogonal to each other. A metamaterial unit structure in the form of a rectangular loop resonator is placed around the antenna element to reduce the electromagnetic interference and to increase the isolation between the two monopoles. A characteristic mode technique is employed to find out the dominant mode of the proposed antenna without a feeding port. It was revealed that mode 1 was the dominant mode among the three modes used. The MIMO antenna is constructed and measured using a vector network analyzer. A good isolation of less than 25 dB was attained with a wide impedance bandwidth of 65.5%.

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High-performance photodetectors based on two-dimensional tin(ii) sulfide (SnS) nanoflakes

Liu

et al. 2018

J. Mater. Chem. C

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Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

Liu

Zheng

et al. 2020

IEEE Access

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A pair of tri-band multiple-input-multiple-output (MIMO) antennas with high isolation is investigated in this paper. The proposed antenna consists of two monopole antenna elements with an edge to edge spacing of 4 mm (0.03 λ 0 at 2.3 GHz). The monopole antenna element chose the bending line structure that can operate in tri-band and realize miniaturization. To achieve compact dimension and high isolation, symmetrical distribution layout is adopted to decouple the low frequency band, the U-shaped neutralization line (NL) contacting with two microstrip lines, and it can to improve the isolation in high frequency band, and the inverted U-shaped NL contacting with two radiation patch can decoupling in the middle frequency band. And then study the envelope correlation coefficient is lower, and the radiation pattern in operation bands is quasi-omnidirectional. It indicates that the antenna has obtained a satisfactory diversity performance within the whole operation bands which can be a good candidate for some portable MIMO applications. INDEX TERMS Multiple-input-multiple-output, tri-band, high isolation, neutralization line.

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Hongxing Zheng

Investigation of SAR Reduction Using Flexible Antenna With Metamaterial Structure in Wireless Body Area Network

Combined effect of high hydrostatic pressure and enterocin LM-2 on the refrigerated shelf life of ready-to-eat sliced vacuum-packed cooked ham

Characteristic Mode Analysis and Design of Wide Band MIMO Antenna Consisting of Metamaterial Unit Cell

High-performance photodetectors based on two-dimensional tin(ii) sulfide (SnS) nanoflakes

Neutralization Line Decoupling Tri-Band Multiple-Input Multiple-Output Antenna Design

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