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- State-filling effects of exciton in quantum dot array are observed. 发现许多正负折射交替一维光子晶体新特性。
- The Study of a Single Quantum Dot Lasers in Microcavity[J]. 引用该论文 廖庆洪;刘正东;尤素萍;曹昌祺.
- Imagine a small latex bead filled with a combination of quantum dots. 试著想像有个小型的乳胶珠粒,里头携带了几种量子点。
- The latest progress of semiconductor quantum dot and quantum wirema. 综述了半导体量子点和量子线材料的最新发展动态及其制备技术。
- Stimulated Emission Behavior of Single Quantum Dot in Microcavity[J]. 引用该论文 廖庆洪;刘正东;尤素萍;曹昌祺.
- To this thin film, they chemically linked quantum dots made of cadmium selenide for sensitization. 他们把硒化镉制成的量子点用化学方式连接在了这种薄膜上,用于敏化。
- Stacked Ge quantum dots are grown on Si(100) by u ltra-high vacuum chemical vapor deposition(UHV/CVD). 用超高真空化学气相淀积系统在Si(1 0 0 )衬底上生长了多层Ge量子点 .
- It provides references for the understanding of planar quantum dots with more electrons. 且能对多电子平面量子点的基态描述提供参考。
- Many organic molecules also fluoresce, but quantum dots have several advantages that make them better markers. 许多有机分子也能够发出萤光,不过量子点具备了几个优点,使它们成为较好的标记。
- Meanwhile ceria and other oxides and quantum dots are expected to increase their market share significantly. 与此同时,二氧化铈和其他氧化物与量子的市场份额将有显著增加。
- In addition, the prospect on single-element- semiconductor quantum dots is forecasted. 另外对单元素半导体量子点的发展前景进行了展望。
- This thesis mainly analyzes the morphological, structural and optical properties of InN quantum dots(QDs). 中文摘要本篇论文主要为分析氮化铟量子点的表面形貌、结构与光性。
- Y. Y. Wang and M. W. Wu, “Control of spin relaxation in double quantum dots”, Phys. Rev. 我们巧妙地利用门电压,提出了在双量子点中实现自旋寿命高达七次方调控的设计。
- It has conductive effects to find the cancerous parts with quantum dots (QDs) target orientation. 利用量子点目标定位癌细胞,对于寻找癌变部位具有指导的作用。
- The dephasing in Ge quantum dots possibly results from carrier-carrier scattering and carrier-photon scattering. Ge量子点中的退相可能是载流子-载流子散射和载流子-声子散射共同作用的结果。
- The second part involves voltage controlled slow light effects in asymmetry double quantum dots (QDs). 第二部分是在非对称的双量子点中电压调控的慢光效应。
- Zhang led a team of researchers from California, Mexico, and China that created a thin film doped with nitrogen and sensitized with quantum dots. 张金中领导的一个来自加州、墨西哥和中国的研究组制造出了一种掺氮并用量子点敏化的薄膜。
- The quantum dots also enhanced visible light absorption and boosted the photocurrent and power conversion of the material. 量子点还能增强可见光吸收,并增加光电流和这种材料的能量转换。
- 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。
- The ALE-MBE technology was used to get better film quality and to control exactly the thickness of epitaxial layers for quantum dots growth. 以原子层-分子束方法磊晶(ALE-MBE)成长锑化镓,可成长出较高的薄膜品质,同时可准确的控制量子点的成长厚度。
