Simulation method for electromagnetic problem containing nonlinear dispersive medium

A simulation method and nonlinear technology, applied in the direction of design optimization/simulation, CAD numerical modeling, etc., can solve the problems of piecewise linear parameter construction not having generality, inaccurate calculation results, etc., to shorten the calculation time, modeling The effect of flexibility and reduced computational cost

Pending Publication Date: 2022-07-22
NANJING UNIV OF SCI & TECH
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Problems solved by technology

In the same year, Zhu B et al regarded nonlinear electromagnetic parameters as piecewise linear parameters, which improved the solution speed, but the construction of piecewise linear parameters is not universal
In 2019, Moradi M et al. from Iran University of Science and Technology used FDTD based on the alternating implicit method to analyze the third harmonic phenomenon of nonlinear dispersive media. When the value is large, the calculation result will be inaccurate

Method used

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  • Simulation method for electromagnetic problem containing nonlinear dispersive medium
  • Simulation method for electromagnetic problem containing nonlinear dispersive medium
  • Simulation method for electromagnetic problem containing nonlinear dispersive medium

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Embodiment

[0099] by figure 2 Taking the structural device shown as an example, the specific steps of the present invention will be further described in detail.

[0100] The medium contains linear Lorentzian polarization and nonlinear polarization, and the nonlinearity includes Kerr nonlinearity and Raman nonlinearity. The specific parameters are as follows, the linear Lorentz polarization parameter: ε s =5.25,ε ∞ =2.25, ω p =4×10 14 sec -1 ,δ p =2×10 9 sec -1 . Kerr and Raman polarization parameters: α=0.7, τ 1 =12.2fs, τ 2 =32fs. The linear Lorentzian dispersion part is described using GDM. Nonlinear dispersion models such as figure 2 As shown in the figure, PBC boundary conditions are used in the x and y directions of the model, and ABC boundary conditions are used at both ends of the z direction. The specific operation steps are as follows:

[0101] The first step, according to figure 2 The geometric dimensions of the structure are shown, and the Ansys software is...

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Abstract

The invention discloses a simulation method for an electromagnetic problem containing a nonlinear dispersive medium, which comprises the following steps of: establishing a geometric model of a medium according to the geometric size of the medium of a device, subdividing the model by adopting a hexahedron unit, acquiring the geometric information of the device and setting the position information of an excitation source; performing region division on the subdivided geometric model according to the kernel number of the parallel parameters; and establishing a differential equation set by adopting a time domain discontinuous Galerkin finite element method, and solving any dispersion model and a nonlinear dispersive medium model in the geometric model of the medium. According to the method, on the basis of the time domain discontinuous Galerkin finite element, by combining the local time stepping and parallel technology, modeling of a complex medium and electromagnetic characteristic analysis of a nonlinear dispersive medium can be achieved; due to the fact that the time domain discontinuous Galerkin finite element method has the advantages of being high in precision and flexible in modeling, an inverse matrix can be directly obtained, and due to the fact that local time stepping and parallel technologies are added, the calculation time can be greatly shortened.

Description

technical field [0001] The invention belongs to the electromagnetic characteristic simulation technology of nonlinear problems, in particular to a simulation method including electromagnetic problems of nonlinear dispersion medium. Background technique [0002] Due to the emergence of lasers, the nonlinear medium effect is gradually reflected in people's sight. The polarization intensity is no longer linear with the electric field, but in the form of a high power. With the increase of the incident wave amplitude, its non-linear relationship The linear effect also increases. Nonlinear media have a wide range of applications in optics, such as optical switches, four-wave mixing (FWM), amplifiers, and modulators. Optical soliton waves with constant shape and speed can be formed in optical fiber communications, which is helpful to achieve lossless communication. For nonlinear media problems, the Maxwell equations can generally be calculated to obtain the electromagnetic proper...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/23G06F111/10
CPCG06F30/23G06F2111/10
Inventor 包华广丁大志樊振宏张天成朱俊培
Owner NANJING UNIV OF SCI & TECH
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