Quasi-polynomial 3D electric and magnetic potentials homogeneous in Euler's sense

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY St Petersburg Polytechnic University Journal-Physics and Mathematics Pub Date : 2017-03-01 DOI:10.1016/j.spjpm.2017.02.003

Alexander S. Berdnikov , Igor A. Averin , Nadezhda K. Krasnova , Konstantin V. Solovyev

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引用次数: 1

Abstract

Electric and magnetic fields homogeneous in Euler's sense are a useful instrument for designing the systems of charge particle optics. The similarity principle for the charged particle trajectories in these fields was applied by Golikov for the first time to create spectrographic charge particle optical systems in a more systematic and intelligence way when using the fields being homogeneous in Euler's sense. This paper studies the Laplace potentials homogeneous in Euler's sense. The coefficients of the polynomials are functions of the two rest coordinates; they are presented not by the polynomial but ought to be the functions harmonic and homogeneous in Euler's sense. We have solved a finite chain of Poisson equations starting from the highest coefficients. By means of the proposed procedure we obtained new classes of potentials which provided a base for electric and magnetic spectrograph systems.

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欧拉意义上齐次的拟多项式三维电势和磁势

在欧拉意义上均匀的电场和磁场是设计电荷粒子光学系统的有用工具。Golikov首次利用这些场中带电粒子轨迹的相似原理，在使用欧拉意义上的齐次场时，以更系统和智能的方式创建了光谱带电粒子光学系统。本文研究了欧拉意义上的拉普拉斯势齐次。多项式的系数是两个剩余坐标的函数;它们不是用多项式表示的，而应该是欧拉意义上的调和齐次函数。我们已经解出了从最高系数开始的有限泊松方程链。通过所提出的方法，我们得到了新的电位类别，为电和磁谱仪系统提供了基础。

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St Petersburg Polytechnic University Journal-Physics and Mathematics PHYSICS, MULTIDISCIPLINARY-

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