frequency band of emission 中文意思是什麼
frequency band of emission
解釋
發射頻帶-
Spontaneous emission can be totally suppressed or strongly enhanced depending on the relative position of the resonant frequency from the edge of the photonic band gap and the photonic mode density. several novel phenomena can be obtained. the spontaneous emission displays an oscillatory behavior, classical light localization, photon - atom bound state, nonzero steady - state population and anomalously large vacuum rabi splitting. and localized mode associated with a defect site in an otherwise perfect photonic crystals, acts as a high - q micro - cavity
通過原子上能級與光子頻率帶隙邊緣的相對位置或者光子態密度,可以抑制或增強原子的自發輻射。分析並得到了一些奇異的現象,如自發輻射的諧振子行為、光的局域、單光子?原子局域態、上能級中存在非零穩態原子布居數、類似於真空中的拉比頻率分裂等。 -
The properties of spontaneous emission depend not only on the relative position of the resonant frequency from the edge of the photonic band gap and the photonic mode density but also on the relative distance of the atomic space position from the sidebrand. and we study other property of spontaneous emission
其性質除了依賴于原子上能級與光子頻率帶隙邊緣的相對位置或光子態密度,還依賴于原子的空間位置與側支距離。並對原子的自發輻射的其它特性進行了分析。 -
Present phs standard prescribed a rather loose out - band and emission power requirements, which will cause severe interference to adjacent frequency band. the wcdma standard requires a more strict rf performance at the account of already existed systems
Phs系統對帶外和雜散指標定得比較寬松,而wcdma的協議標準里專門考慮了對現有系統的干擾情況,因而對射頻指標要求得比較嚴格。 -
In addition, the control of spontaneous emission of a three - level atom embedded in photonic crystals was investigated in this paper, because the model of two - level atom is siple. as it shows, the properties of spontaneous emission depend not only on the relative position of the resonant frequency from the edge of the photonic band gap and the photonic mode density but also on the intial atomic state
二能級畢竟是最簡單的模型,故在最後,還對光子晶體中三能級原子的自發輻射特性進行了研究。結果表明,其自發輻射除了依賴于原子上能級與光子頻率帶隙邊緣的相對位置或光子態密度外,還依賴于原子的初始狀態。
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