Jianben Liu scite author profile

Electromagnetic field sensors are widely used in various areas. In recent years, great progress has been made in the optical sensing technique for electromagnetic field measurement, and varieties of corresponding sensors have been proposed. Types of magnetic field optical sensors were presented, including probes-based Faraday effect, magnetostrictive materials, and magnetic fluid. The sensing system-based Faraday effect is complex, and the sensors are mostly used in intensive magnetic field measurement. Magnetic field optical sensors based on magnetic fluid have high sensitivity compared to that based on magnetostrictive materials. Three types of electric field optical sensors are presented, including the sensor probes based on electric-optic crystal, piezoelectric materials, and electrostatic attraction. The majority of sensors are developed using the sensing scheme of combining the LiNbO3 crystal and optical fiber interferometer due to the good electro-optic properties of the crystal. The piezoelectric materials-based electric field sensors have simple structure and easy fabrication, but it is not suitable for weak electric field measurement. The sensing principle based on electrostatic attraction is less commonly-used sensing methods. This review aims at presenting the advances in optical sensing technology for electromagnetic field measurement, analyzing the principles of different types of sensors and discussing each advantage and disadvantage, as well as the future outlook on the performance improvement of sensors.

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Enhanced surface insulating performance for polystyrene by atmospheric pressure plasma jet deposition

Kong

Zhang

et al. 2020

Applied Surface Science

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Synthesis and characterization of LiMn2O4 powders by the combustion-assisted sol–gel technique

Xiao

et al. 2004

Materials Chemistry and Physics

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Activated carbon supported TiO2-photocatalysis doped with Fe ions fo continuous treatment of dye wastewater in a dynamic reactor

Chen

Liu

et al. 2010

Journal of Environmental Sciences

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Physico-chemical properties and microstructure of hydroxyapatite-316L stainless steel biomaterials

Zou

Ruan

Huang

et al. 2004

J Cent. South Univ. Technol.

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Sintering shrinkage, compressive strength, bending strength, metallurgical morphology, microstructure and chemical composiIion diffusion of hydroxyapatite-316L stainless steel(HA-316L SS) composites were investigated. The results show that the sintering shrinkage of HA-316L SS composites decreases from 27.38% to 8.87% for cylinder sample or from 27.18% to 8.62~ for cuboid sample with decreasing the volume ratio of HA to 316L SS, which leads to higher sintering activity of HA compared with that of 316L SS. The compressive strength of HA-3161. SS composites changes just like parabolic curve (245.3--~126.3--,-202.8 MPa) with reducing the volume ratio of HA to 316L SS. Bending strength increases from 86.3MPa to 124. 2 MPa with increasing the content of 316L SS. Furthermore, comprehensive mechanical properties of 1.0 : 3.0 (volume ratio of HA to 316L SS) composite are optimal with compressive strength and bending strength equal to 202. 8 MPa and 124.2 MPa, respectively. The microstructure and metallurgical structure vary regularly with the volume ratio of HA to 316L SS. Some chemical reaction takes place at the interface of the composites during sintering.

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Jianben Liu

Recent Progress on Electromagnetic Field Measurement Based on Optical Sensors

Enhanced surface insulating performance for polystyrene by atmospheric pressure plasma jet deposition

Synthesis and characterization of LiMn2O4 powders by the combustion-assisted sol–gel technique

Activated carbon supported TiO2-photocatalysis doped with Fe ions fo continuous treatment of dye wastewater in a dynamic reactor

Physico-chemical properties and microstructure of hydroxyapatite-316L stainless steel biomaterials

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