磁聚焦的经典和量子解释

Advances in Natural Science Pub Date : 2013-12-20 DOI:10.3968/J.ANS.1715787020130604.2660

Min Zhao

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引用次数: 0

摘要

在牛顿力学中，电荷在磁场中的运动是等距螺旋线。它由沿磁场方向的匀速运动和沿垂直方向的圆周运动组成。在量子力学中，它的运动是二维共振。它的能级是独立的。它的波函数是概率。利用这一理论，磁聚焦被解释为在磁场中运动的大量电荷在某一点上不是100%。它们将根据概率分散。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Classical and Quantum Explanation of the Magnetic Focusing

In Newtonian mechanics, the motion of the charge in the magnetic field is the equidistance helical line. It is composed of the uniform motion in magnetic field’s direction and the circular motion in vertical direction. In quantum mechanics, its motion is the two-dimensional resonance. Its energy level is separate. Its wave function is probability. With this theory, magnetic focusing is explained to that a large number of charge moving in the magnetic field is not 100% at a point. They will be dispersed according to probability.

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Advances in Natural Science

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