ERMES: A nodal-based finite element code for electromagnetic simulations in frequency domain

Otin R.

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ERMES: A nodal-based finite element code for electromagnetic simulations in frequency domain

机译：ERMES：基于节点的有限元代码，用于频域电磁仿真

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In this work we present a new finite element code in frequency domain called ERMES. The novelty of this computational tool rests on the formulation behind it. ERMES is the C++ implementation of a simplified version of the weighted regularized Maxwell equation method. This finite element formulation has the advantage of producing well-conditioned matrices and the capacity of solving problems in the low (quasi-static) and high frequency regimens. As a consequence of this versatility, ERMES has been applied successfully to microwave engineering, antenna design, electromagnetic compatibility and eddy currents problems. This paper describes the main features of ERMES and explains how to use this numerical tool for computing electromagnetic fields in frequency domain.

机译：在这项工作中，我们提出了一种新的频域有限元代码，称为ERMES。这种计算工具的新颖性在于其背后的表述。 ERMES是加权正则化Maxwell方程方法的简化版本的C ++实现。这种有限元公式的优点是可以生成条件良好的矩阵，并具有解决低频（准静态）和高频方案中问题的能力。由于这种多功能性，ERMES已成功应用于微波工程，天线设计，电磁兼容性和涡流问题。本文介绍了ERMES的主要特征，并说明了如何使用此数值工具来计算频域中的电磁场。

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《Computer physics communications》 |2013年第11期|共8页
作者
Otin R.;
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正文语种 eng
中图分类计算机的应用;
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Computational electromagnetics; Electrostatics and electromagnetics (10); Finite element analysis (02.70.Dh); Nodal elements; Time-harmonic fields; Weighted regularized Maxwell equations;

机译：计算电磁学;静电学和电磁学（10）;有限元分析（02.70.Dh）;节点元素;时谐场;加权正则化Maxwell方程;

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1. ERMES: A nodal-based finite element code for electromagnetic simulations in frequency domain [J] . Otin R. Computer physics communications . 2013,第11期

机译：ERMES：基于节点的有限元代码，用于频域电磁仿真
2. Frequency and time domain electromagnetic scattering simulations employing higher order edge elements [J] . P.D. Ledger, K. Morgan, O. Hassan Computer Methods in Applied Mechanics and Engineering . 2005,第2a5期

机译：使用高阶边缘元素的频域和时域电磁散射模拟
3. Numerical simulation of borehole acoustic logging in the frequency and time domains with hp-adaptive finite elements [J] . Christian Michle, Leszek Demkowicz, Carlos Torres-Verdin Computer Methods in Applied Mechanics and Engineering . 2009,第21a26期

机译：hp有限元在频域和时域对井壁声波测井的数值模拟
4. Frequency-domain finite element methods for electromagnetic field simulation: fundamentals, state of the art, and applications to EMI/EMC analysis [C] . Cangellaris, A.C. Electromagnetic Compatibility, 1996. Symposium Record. IEEE 1996 International Symposium on . 1996

机译：用于电磁场仿真的频域有限元方法：基本原理，最新技术及其在EMI / EMC分析中的应用
5. A Hybrid Spectral-Element / Finite-Element Time-Domain Method for Multiscale Electromagnetic Simulations. [D] . Chen, Jiefu. 2010

机译：用于多尺度电磁仿真的混合频谱元素/有限元素时域方法。
6. Source codes and simulation data for the finite element implementation of the conventional and localizing gradient damage methods in ABAQUS [O] . Subrato Sarkar, I.V. Singh, B.K. Mishra, 2019

机译：ABAQUS中常规和局部梯度损伤方法的有限元实现的源代码和仿真数据
7. Implementation of user element subroutines for frequency domain analysis of wave scattering problems with commercial finite element codes [O] . Mosquera Arias Felipe 2014

机译：使用商业有限元代码实现波散射问题的频域分析的用户元素子程序

ERMES: A nodal-based finite element code for electromagnetic simulations in frequency domain

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