人体系统辐射场的量子化与物质相互作用是量子人体研究的重要内容。
Interaction between quantumization and matter of human body radiation field is the important content of the study of quantum human body.
采用霍尔斯坦和普里马科夫提出的二次量子化方法把磁振子系统的哈密顿量简化,并应用平均场理论处理了哈密顿量中的非线性相互作用项;
Hamiltonian of magnons system was simplified by the second quantization method presented by Holstein and Primakoff. The nonlinear interaction term of Hanitltonian was dealt with by mean theory.
讨论了在驻波腔场中两能级原子的量子化平移运动与原子内态布居间的相互影响。
In this paper, their interaction between the two-level atomic quantized translational motion and internal state population in a quantized standing-wave cavity are studied.
在爱因斯坦看来,电磁场能量本身也是量子化的,辐射场不是连续的,而是由分立的能量子组成的。
In Einstein's opinion, the electromagnetic field energy itself is quantized, the radiation field is not continuous, but composed of discrete can quantum.
基于原子作双光子共振跃迁的原子场缀饰态 ,讨论了驻波腔场中两能级原子的量子化平移运动与原子内态布居间的相互影响。
The influence of atomic internal state population on its translational motion in a quantized standing wave cavity field with spatial periodic structure is investigated.
基于原子作双光子共振跃迁的原子场缀饰态 ,讨论了驻波腔场中两能级原子的量子化平移运动与原子内态布居间的相互影响。
The influence of atomic internal state population on its translational motion in a quantized standing wave cavity field with spatial periodic structure is investigated.
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