Fast Fourier transform-based solution of 2D and 3D magnetization problems in type-II superconductivity

Prigozhin Leonid; Sokolovsky Vladimir

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Fast Fourier transform-based solution of 2D and 3D magnetization problems in type-II superconductivity

机译：基于快速的基于傅里叶变换的2D和3D磁化问题解决方案 - II型超导性

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We consider the fast Fourier transform (FFT) based numerical method for thin film magnetization problems (Vestgarden and Johansen 2012 Supercond. Sci. Technol. 25 104001), compare it with the finite element methods, and evaluate its accuracy. Proposed modifications of this method implementation ensure stable convergence of iterations and enhance its efficiency. A new method, also based on the FFT, is developed for 3D bulk magnetization problems. This method is based on a magnetic field formulation, different from the popular h-formulation of eddy current problems typically employed with the edge finite elements. The method is simple, easy to implement, and can be used with a general current-voltage relation; its efficiency is illustrated by numerical simulations.

机译：我们考虑基于薄膜磁化问题的快速傅立叶变换（FFT）数值方法（Vesgarden和Johansen 2012 Supercond。SCI。Technol.250101），将其与有限元方法进行比较，评估其精度。提出的修改该方法实施确保了迭代稳定的收敛性并提高其效率。为3D散装磁化问题开发了一种基于FFT的新方法。该方法基于磁场制剂，与通常与边缘有限元件一起使用的涡流问题的流行H制剂不同。该方法简单，易于实现，可与一般电流电压关系一起使用; 其效率是通过数值模拟来说明的。

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来源
《Superconductor Science & Technology》 |2018年第5期|共11页
作者
Prigozhin Leonid; Sokolovsky Vladimir;
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作者单位

Ben Gurion Univ Negev J Blaustein Inst Desert Res Sede Boqer Campus IL-84990 Sede Boqer Israel;

Ben Gurion Univ Negev Dept Phys IL-84105 Beer Sheva Israel;

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正文语种 eng
中图分类超导电性;导电材料及其制品;
关键词
type-II superconductors; magnetization problems; numerical modeling; fast Fourier transform;

机译：II型超导体;磁化问题;数值建模;快速傅里叶变换;

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专利

1. Fast Fourier transform-based solution of 2D and 3D magnetization problems in type-II superconductivity [J] . Prigozhin Leonid, Sokolovsky Vladimir Superconductor Science & Technology . 2018,第5期

机译：基于快速的基于傅里叶变换的2D和3D磁化问题解决方案 - II型超导性
2. 3D Magnetization Problems in Superconductivity: Solution by the FFT-based Method [J] . WSEAS Transactions on Circuits and Systems . 2019,第期

机译：超导磁化问题：基于FFT的方法解决方案
3. Parallel implementation and scalability analysis of 3D Fast Fourier Transform using 2D domain decomposition [J] . Orlando Ayala, Lian-Ping Wang Parallel Computing . 2013,第1期

机译：使用2D域分解的3D快速傅立叶变换的并行实现和可伸缩性分析
4. Fast Lighting/Rendering Solution for Matching a 2D Image to a Database of 3D Models: "Lightsphere" [C] . A. Peter Blicher, Sebastien Roy IAPR Workshop on Machine Vision Applications, Nov 28-30, 2000, The University of Tokyo, Japan . 2000

机译：用于将2D图像与3D模型数据库匹配的快速照明/渲染解决方案：“ Lightsphere”
5. The Interaction of Fast Flowing Plasma with Non-Magnetized Solar System Bodies: A New 3D Multi-fluid MHD Model of Mars and its Applications [D] . Najib, Dalal 2011

机译：快速流动的等离子体与非磁化太阳系主体的相互作用：火星的新型3D多流体MHD模型及其应用
6. GPU-accelerated non-uniform fast Fourier transform-based compressive sensing spectral domain optical coherence tomography [O] . Daguang Xu, Yong Huang, Jin U. Kang -1

机译：基于GPU加速的非均匀快速傅里叶变换的压缩感知光谱域光学相干层析成像
7. FFT-based solution of 2D and 3D magnetization problems in type-II superconductivity [O] . Prigozhin, Leonid, Sokolovsky, Vladimir 2018

机译：基于FFT的II型二维和三维磁化问题解决方案超导
8. Comparison of Arithmetic Requirements for the PFA (Prime Factor Algorithm), WFTA (Winograd Fourier Transform Algorithm), SWIFT, MFFT (Mixed Radix Fast Fourier Transform), FFT (Fast Fourier Transform) and DFT (Discrete Fourier Transform) Algorithms. [R] . Hicks, R. C. 1982

机译：pFa（素因子算法），WFTa（Winograd傅立叶变换算法），sWIFT，mFFT（混合基线快速傅里叶变换），FFT（快速傅立叶变换）和DFT（离散傅立叶变换）算法的算术要求的比较。

Fast Fourier transform-based solution of 2D and 3D magnetization problems in type-II superconductivity

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