塞曼效应是指原子在外磁场中发光谱线发生分裂且偏振的现象;历史上首先观测到并给予理论解释的是谱线一分为三的现象,后来又发现了较三分裂现象更为复杂的难以解释的情况,因此称前者为正常或简单塞曼效应,后者为反常或复杂塞曼效应。
反常塞曼效应 [天] anomalous zeeman effect
侧塞曼效应 inverse Zeeman effect
正常塞曼效应 [光] [天] normal Zeeman effect
反向塞曼效应 inverse zeeman effect
塞曼效应激光器 [激光] Zeeman laser
塞曼效应稳频 Zeeman effect frequency stabillization ; Zeeman effect frequency stabilization
核塞曼效应 [光] nuclear Zeeman effect
纵向塞曼效应 longitudinal Zeeman effect
二级塞曼效应 second-order zeeman effect
In the second part of this dissertation,the research about the Zeeman splitting of shallow levels in semiconductor by Admittance Spectroscopy has been studied.
第二部分重点研究了利用导纳谱测量半导体中浅能级的塞曼效应。
参考来源 - 导纳谱应用于测量半导体中浅能级的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
我们将对氢原子考虑此塞曼效应。
激光器单频可调范围经塞曼效应展宽后达2500兆赫以上。
Its frequency tuning range broadened by Zeeman effect was more than 2500 MHz.
用一种简单的半经典方法推导出了交流塞曼效应中的能级移动公式。
The formula of level shifts in AC Zeeman effect is derived on the base of a simple semiclassical method.
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