研究等离子体加载对色散吸收介质光腔系统量子性质的影响。
The influence of the plasma loading on the quantum character of the absorbing and dispersive cavity is investigated.
借助系统经典格林函数,运用正则量子化方法,对平面分区均匀色散吸收介质中电磁场进行量子化。
The photic field in the plane divisional uniform absorbing and dispersive dielectrics is quantized by the canonical quantum theory and the classical Greens function of the system.
利用色散吸收介质中电磁场的正则量子化方法,研究等离子体加载对色散吸收介质光腔系统量子性质的影响。
The influence of the plasma loading on the quantum character of absorbing and dispersive cavity is investigated by the canonical quantum method of the electromagnetic field.
光学介质的吸收和色散性质在量子光学与非线性光学中有着广泛的应用。
The dispersion and absorption properties of optical medium have been extensively applied in quantum optics and nonlinear optics.
吸收和色散性质是光学介质的一对基本性质,吸收性质往往会限制色散性质的利用。
The dispersion and absorption are a pair of fundamental properties of optical medium. The use of the dispersive properties is often limited by the absorption.
在V型能级系统原子介质中,若利用外场产生相干,则弱光场在该介质中的吸收-色散关系将展现出新的特性。
A new feature will be exhibited in the absorption-dispersion relation if quantum coherence is induced by an external field in the medium consisting of atoms of V-type energy-level configuration.
在V型能级系统原子介质中,若利用外场产生相干,则弱光场在该介质中的吸收-色散关系将展现出新的特性。
A new feature will be exhibited in the absorption-dispersion relation if quantum coherence is induced by an external field in the medium consisting of atoms of V-type energy-level configuration.
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