Computer Informatization and Mechanical System
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location：Home > 2022 Vol.5 Jun.No2 > Numerical simulation of laser seawater bubble screen polarization

2022 Vol.5 Jun.No2
Title: Numerical simulation of laser seawater bubble screen polarization Name: Black Tom Company: PrestonUniversity,USA Abstract: The conventional numerical simulation of seawater bubble screen polarization has the disadvantage of low simulation accuracy under the condition of simulated laser. Therefore, the numerical simulation of seawater bubble screen polarization is proposed. Monte Carlo processing technology is introduced to determine the boundary conditions of the numerical value of seawater bubble screen polarization, and the Monte Carlo model is constructed. Based on the pretreatment of the numerical value of seawater bubble screen polarization, Marius law is realized The numerical simulation of the polarization of laser seawater bubble curtain is completed. The experimental data show that the simulation accuracy of the proposed numerical simulation method is 37.14% higher than that of the conventional simulation method, which is suitable for the numerical simulation of the polarization of the seawater bubble curtain under the laser. Keyword: laser; seawater bubble curtain; polarization; numerical simulation DOI: 10.12250/jpciams2022090114 Citation form: Black Tom.Numerical simulation of laser seawater bubble screen polarization [J]. Computer Informatization and Mechanical System,2022,Vol.5,pp.71-73

2022 Vol.5 Jun.No2

Title: Numerical simulation of laser seawater bubble screen polarization
Name: Black Tom
Company: PrestonUniversity,USA
Abstract:
The conventional numerical simulation of seawater bubble screen polarization has the disadvantage of low simulation accuracy under the condition of simulated laser. Therefore, the numerical simulation of seawater bubble screen polarization is proposed. Monte Carlo processing technology is introduced to determine the boundary conditions of the numerical value of seawater bubble screen polarization, and the Monte Carlo model is constructed. Based on the pretreatment of the numerical value of seawater bubble screen polarization, Marius law is realized The numerical simulation of the polarization of laser seawater bubble curtain is completed. The experimental data show that the simulation accuracy of the proposed numerical simulation method is 37.14% higher than that of the conventional simulation method, which is suitable for the numerical simulation of the polarization of the seawater bubble curtain under the laser.
Keyword: laser; seawater bubble curtain; polarization; numerical simulation
DOI: 10.12250/jpciams2022090114
Citation form: Black Tom.Numerical simulation of laser seawater bubble screen polarization [J]. Computer Informatization and Mechanical System,2022,Vol.5,pp.71-73

Reference:

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[2]Yu Zuqing, Lan Peng, Li Kunkun, et al., Modeling and Simulation of Transmission Cable Dynamics Based on Segmented Continuous ANCF Cable Element[J]. Chinese Journal of Mechanical Engineering, 2018, 54(19):70-77.

[3]Shen Zhenmin, Zhao Tong, Wang Yuncai, et al., Underwater Target Detection with Chaotic Pulse Lidar[J]. Infrared and Laser Engineering, 2019(4):108-114.

[4]Sun Chen, Zhao Yiwu, An Zhongde, et al., Influence of Concentration on Polarization Laser Transmission Characteristics in the Process of Oil Mist Diffusion[J]. Applied Optics, 2017, 38(6):1012-1017.

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