Semiconductor quantum dot is a mesoscopic system with marked quantum size effect.
半导体量子点是一种具有显著量子尺寸效应的介观体系。
The properties of the effective mass of polaron in semiconductor quantum dot are studied.
研究了半导体量子点中极化子的有效质量。
The statistic characteristics of single photon emission in single semiconductor quantum dot with pulse excitation have been investigated.
研究了脉冲激发下单个半导体量子点中单光子发射的统计特性。
In the paper, the properties of weak-coupling exciton in semiconductor quantum dot are studied by using the method of a linear-combination operator.
采用线性组合算符方法研究了半导体量子点中弱耦合激子的性质。
The researchers have invented a novel photonic molecule system in which a semiconductor quantum dot emits a pair of entangled photons per excitation pulse.
研究人员发明了一种新型“光子分子”系统,其中半导体量子点在每个激励脉冲都会发出一对纠缠光子。
The researchers have invented a novel "photonic molecule" system in which a semiconductor quantum dot emits a pair of entangled photons per excitation pulse.
研究人员发明了一种新型“光子分子”系统,其中半导体量子点在每个激励脉冲都会发出一对纠缠光子。
The influences of the electronic velocity on the mean number of phonons of the strong-and weak-coupling polaron in a semiconductor quantum dot are derived.
导出了电子速度对半导体量子点中强、弱耦合极化子的声子平均数的影响。
Due to the quantum size effect, semiconductor quantum dot nanocrystals can be used to adjust the wavelength of the luminescence center for broadband infrared emission.
半导体量子点可利用量子尺寸效应,具有可调节红外宽带发光中心波长等特点。
This review introduces the program package LADIA for lattice distortion analysis and its application to semiconductor self-assembled quantum dot (QD) systems.
本综述介绍晶格畸变分析(LADIA)程序包及其在半导体自组装量子点(QD)系统中的应用。
This paper reviews electron transport effects and study progress on low dimensional semiconductor structures such as superlattice, quantum wire and quantum dot.
文中介绍了超晶格、量子线与量子点等低维半导体结构中的电子输运效应及其研究进展。
Quantum dot, a semiconductor nano-crystal could eradiate fluorescence, possess unique optical property.
量子点作为一种能发射荧光的半导体纳米微晶体,具有独特的光学性质。
Slow and fast light in quantum-well (QW) and quantum-dot (QD) semiconductor optical amplifiers (SOAs) using nonlinear quantum optical effects are presented.
利用非线性量子光学效应在量子阱(QW)、量子点(QD)半导体光放大器(SOA)中得到了慢光和快光。
Slow and fast light in quantum-well (QW) and quantum-dot (QD) semiconductor optical amplifiers (SOAs) using nonlinear quantum optical effects are presented.
利用非线性量子光学效应在量子阱(QW)、量子点(QD)半导体光放大器(SOA)中得到了慢光和快光。
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