The outlook of the future works on quantum-dot lasers is given finally.
最后展望了量子点激光器的研究方向。
This paper presents an overview of the research progress on the quantum-dot lasers.
本文综述了量子点激光器的研究进展。
It is simply a matter of replacing the diffuser layer with a quantum-dot-enhancement film.
要做的仅仅是将漫射层替换成量子增强膜而已。
Even though it will be put to rather mundane USES, the technology in question has an exotic name: quantum-dot lighting.
尽管这种技术将被使用于大众生活,但它却有个怪异的名称——量子点照明技术。
Several quantum dots form a coupled-quantum-dot system when they close up and couple to each other by tunnel coupling.
几个量子点在空间上相互靠近并发生耦合效应就形成了耦合量子点体系。
They demonstrated an experimental quantum-dot display made of strips of red, green and blue dots on an array of special transistors that powered and controlled them.
他们展示了一个由红、绿、蓝量子点制成的实验型量子点显示屏,由一个特殊的晶体管阵列进行供电和控制。
And the bound state with the highest energy level in the quantum-dot molecule changes gradually into a quasibound state when the electric field strength increases.
计算量子点分子中束缚能级之间跃迁的振子强度表明,只有成键态和相应的反键态之间跃迁才是允许的。
A quantum-dot display would work by arranging quantum dots that emit red, green and blue light in a grid-like pattern, and getting those dots to emit light directly.
量子点显示技术的工作原理是,通过将散发红光、绿光与蓝光的量子点排列为网状图案,并让这些量子点直接发光。
Though QD Vision says a lot more work remains to be done before this display can be made commercially, it believes quantum-dot displays should end up being cheaper than OLED screens.
尽管QD Vision公司表示,在该显示器得以商业化之前还有大量的剩余工作要做,但它认为量子点显示器终将比有机发光两极管屏幕更便宜。
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。
For example, Figure 2 represents the fourth energy level for a quantum dot in a pyramidal geometry.
例如,图2表现了金字塔形几何形状中一个量子点的第四能级。
The entire universe was compressed into a little quantum dot, and it was so tight in there there was no room for any difference at all.
整个宇宙被压缩为一个小量子点,它是那么紧,紧得不可能有任何差别。
They found that these states were always below the TiO2 conduction band, which means that hot electrons from the quantum dot can transfer from the PbSe to the TiO2.
他们发现这些能级皆低于TiO2的传导带,这意味着从量子点放射出的热电子能够从PbSe传导到TiO2。
The work expands the Toronto team's world-leading 5.6 per cent efficient colloidal quantum dot solar cells.
在这项工作中,多伦多小组的高效胶体量子点太阳能电池的效率,领先世界水平5.6个百分点。
In chapter five, we study the possibility of dynamical localization in quantum dot array.
第五章中我们考察了在量子点链中动态局域发生的可能性。
Both doping and quantum dot sensitization extend the visible light absorption of the metal oxide materials.
掺杂和量子点敏化都增强了金属氧化物材料对可见光的吸收。
When excited by light or electricity, a quantum dot emits light of a colour determined by the dot's size and the material from which it is made.
当量子点被光线或电力刺激之后,它们就能根据各自的量子点大小以及其构成材料而释放出某种颜色的光。
In chapter six, we control the tunneling of electrons in the quantum dot array selectively rather than only localizing them in their initial state.
第六章中我们有选择的控制电子在点链中的隧穿而不是简单的将其局域在初始点中。
We studied the dynamical localization of a double quantum dot system as a simple example of this method.
做为一个简单的例子,在本章中我们对耦合双量子点系统的动态局域性质进行了研究。
Quantum dot gain spectra based on harmonic oscillator model are calculated including and excluding excitons.
基于谐振子模型的量子点能级,计算了包括和排除激子影响时多能级的增益谱。
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。
Quantum dot optic microcavity device had potential application in field of quantum information technology using as the low threshold laser and single photon light source etc.
量子点光学微腔器件在低阈值激光器和单光子光源等量子信息处理技术领域有重要的应用前景。
The ratio of the UV PL intensity to the visible PL intensity is 54, indicating the high quality of ZnO quantum dot was acquired.
光致发光谱中紫外发射峰积分强度和可见发射峰的积分强度比达到54,表明得到了较高质量的氧化锌量子点。
There is currently a major ongoing research effort about Silicon-based quantum dot devices because of their unique properties and compatible with mature Si integrated circuit.
硅基量子点器件由于其独特的性能以及和硅集成电路相容的特点成为研究的重点。
The mesoscopic transport through a quantum dot and a toroidal carbon nanotube (TCN) coupled system is investigated with the nonequilibrium Green's function technique.
应用非平衡格林函数方法研究通过环形碳纳米管—量子点耦合系统的介观输运。
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。
This thesis is devoted to study the quantum dynamics of coupled quantum dot system in the presence of external fields.
本论文系统研究了耦合量子点系统在外场作用下的量子驱动隧穿动力学。
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。
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。
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