双4维时空量子力学描述中电子自旋、自旋磁矩
The Electron Spin and Spin Magnetic Moment in Dual-Four-Dimensional Quantum Mechanism

作者: 赵国求 :华中科技大学-WISCO联合实验室,湖北 武汉;

关键词: 场物质球波函数自旋自旋磁矩?s计算Field Matter Sphere Wave Function Spin Spin Magnetic Moment ?s Calculated

摘要:
双4维时空量子力学描述中,微观客体的自旋是场物质球自身的转动。在自身参考系,场物质球的半径由静态康普顿动量m0c定义:R0=ħ/m0c,转动频率为:E0= hν0;在运动参考系,场物质球的半径由动态康普顿动量mc定义:R1= ħ/mc,转动频率为:E1= hν1。m,m0是微观客体的动、静质量。电子自旋S及自旋磁矩μs都可以通过场物质球模型来计算。若自身参考系就在复数空间,在闵氏4维时空观察转动场物质球的运动,生成双4维复数时空,形成场物质的波动运动,它就是德布罗意物质波。

Abstract: In dual-four-dimensional quantum mechanism, the spin of micro object is caused by the rotation of field matter sphere itself. In its own frame of reference, the radius is defined as the static Compton momentum R0=ħ/m0c, and frequency is ν0= E0/h. In the Dynamic frame of reference, the radius is defined as the dynamic Compton momentum R1= ħ/mc, and frequency is ν1= E1/h. m0 and m are the static and dynamic mass of a micro matter sphere, respectively. The electron spin s and spin magnetic moment μs both can be calculated by the field matter sphere model. If the frame of reference is in the complex space-time, and we observe the motion in a Minkowshi Space, then there will be a dual four-dimensional complex space-time. The fluctuation motion of field matter is De Broglie matter wave.

文章引用: 赵国求 (2016) 双4维时空量子力学描述中电子自旋、自旋磁矩。 现代物理, 6, 1-12. doi: 10.12677/MP.2016.61001

参考文献

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