Fuyi Cui scite author profile

The solid-state power device has the advantages of small size, light weight and low working voltage, but the output power of the device is limited and cannot meet the engineering needs of power synthesis. Based on the characteristics of erbium (Er3+)-doped optical waveguide amplifier (EDWA), Er3+-ytterbium (YB3+) nanocrystalline were introduced into the design of solid-state power devices, and then nanoelectronic devices were designed to improve the output power of the device. First, NaYF4: 8%Er3+, 16%Yb3+ nanocrystalline were prepared. SU-8 UV glue was used to prepare NaYF4: Er3+. Yb3+ nanocrystalline doped polymer waveguide amplifier was designed and used to observe the waveguide morphology and its performance was tested. Then, the power synthesis amplification technology was studied, and the power distribution-synthesis network based on waveguide E–T junction was designed. The waveguide-microstrip transition structure adopted ridge waveguide transition. On this basis, the 4-stage waveguide E-plane stepped structure was introduced and its structure was simulated. In the design of the power synthesis amplifier, the signal gain of the synthesis amplifier was tested by using the nanocrystal-doped polymer waveguide amplifier as the power unit device. The experimental results show that the output signal light of the nanocrystal-doped polymer waveguide amplifier can be received by an infrared detector. When the pump light power at 980 nm is 200 mW and the signal light power is only 0.1 mW, the maximum relative gain is 4.7 dB in a 1.2 cm long waveguide. The saturated output power of the power unit device is 19.3 dB~19.8 dB, which is close to the saturated output power required by the chip manual. The gain curve of the power synthesis amplifier is relatively flat, that is, the use of nanocrystal-doped polymer waveguide electronic devices effectively improves the synthetic signal gain and reduces the adverse impact of power distribution-synthetic passive network loss.

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Transmission electromagnetic beam splitter based on double-sided all dielectric microstructure

Wei¹,

Cui²,

Guo³

et al. 2022

Laser Phys.

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We propose a transmission type dual beam splitter based on all-dielectric encoded metasurface. In order to improve the efficiency of the device, we propose to construct the coding metasurface using double-sided all-dielectric cylindrical cell structure. Based on the electromagnetic dipole resonance characteristics of the all-dielectric resonator, two all-dielectric elements with transmission phase difference π were obtained, and 1-bit coded metasurface was constructed to achieve beam splitting characteristics of incident waves. Based on the finite integral method, we numerically simulate the far-field scattering characteristics of coded metasurface beam splitter. It is found that the number of digital repeats of coding unit particles has a great influence on beam splitting when constructing coding metasurface due to the coupling effect between particles. The energy ratio of double beam splitting can be continuously regulated by changing the incident angle. The dual-beam splitter we designed also has broadband characteristics.

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Far-field scattering regulation of all dielectric material metagratings based on the addition principle of coding elements

Wei

Cui

Guo

et al. 2022

Journal of Electromagnetic Waves and Applications

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Stiffness Calculation of Gear Hydraulic System Based on the Modeling of Nonlinear Dynamics Differential Equations in the Progressive Method

Cui

Wang

2022

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The paper calculates the nonlinear dynamic differential equation model based on the stiffness of the gear teeth and gives the calculation method of the spring stiffness of the transmission system. Choose the Lyapunov energy function and derive the adaptive law that can make the system asymptotically stable globally. At the same time, we discussed the influence of the phase combination of the coupling shaft's torsional stiffness and the gears' meshing stiffness in the multi-stage gear transmission system on the system dynamics. The example calculation shows that the asymptotic method has higher solution accuracy and higher calculation efficiency. This algorithm is a highly versatile analytical solution method.

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Fuyi Cui

Energy and exergy assessment of evacuated tube solar collector using water, Fe3O4 nanofluid and Fe3O4/MWCNT hybrid nanofluid

Design and Application of Waveguide Microwave Electron Synthesis Power Amplifier Using Er³+−Yb³+ Co-Doped Nanocrystalline

Transmission electromagnetic beam splitter based on double-sided all dielectric microstructure

Far-field scattering regulation of all dielectric material metagratings based on the addition principle of coding elements

Stiffness Calculation of Gear Hydraulic System Based on the Modeling of Nonlinear Dynamics Differential Equations in the Progressive Method

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Fuyi Cui

Energy and exergy assessment of evacuated tube solar collector using water, Fe3O4 nanofluid and Fe3O4/MWCNT hybrid nanofluid

Design and Application of Waveguide Microwave Electron Synthesis Power Amplifier Using Er3+−Yb3+ Co-Doped Nanocrystalline

Transmission electromagnetic beam splitter based on double-sided all dielectric microstructure

Far-field scattering regulation of all dielectric material metagratings based on the addition principle of coding elements

Stiffness Calculation of Gear Hydraulic System Based on the Modeling of Nonlinear Dynamics Differential Equations in the Progressive Method

Contact Info

Product

Resources

About

Design and Application of Waveguide Microwave Electron Synthesis Power Amplifier Using Er³+−Yb³+ Co-Doped Nanocrystalline