The Influence on Microcavity Laser of the Excition Effect in Quantum Well;
低剂量激光对众多生物体产生有效刺激效应。
The cavity effects of organic microcavity under photo-pumping were studied.
研究了有机聚合物微腔在光泵浦下的腔效应。
Microcavity effect has been achieved simply by adjusting the thickness of organic light emitting layer.
研究表明有机半导体微腔效应可通过简单地调节有机发光层的厚度来实现。
The results showed that the microcavity electrode would be a useful and efficient tool to investigate the charge transfer reactions at ITIES.
实验证明,该方法操作简便,是研究ITIES界面上电荷迁移反应的一种有效工具。
Therefore the square resonator with an output waveguide is a promising candidate to realize single-mode directional emission microcavity lasers.
因此带输出波导的正方形谐振腔是一种可以获得单模定向发射的微腔激光器,具有广泛的应用前景。
Then, with the obtained PC microcavity structure serving as a mold, a hot embossing process is applied to finally achieve a polymethylmethacrylate (PMMA) MLA.
然后以PC微凹透镜阵列为二次模板,再通过热压印制得了聚甲基丙烯酸甲酯(PMMA)的微凸透镜阵列。
In the closed microcavity of an ideal four-level laser system, when nonradiative depopulation is zero, the light output property of the microcavity laser is linearly.
在封闭腔,对理想的四能级激光系统,无辐射衰减速率为零时微腔激光器的光输出特性是线性的。
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。
Directional emission of light guided by quadrupolar-shaped quantum cascade microcavity lasers solves the difficulty about the directional emission of symmetrical microcavity lasers.
四极子量子级联微腔激光器带来的光的方向性激射,解决了对称型微腔激光器光的方向性激射的困难。
Optical microcavity arouses great interest in condensed state physics. It can change characters of spontaneous emission, such as spectral full width at half-maximum, light intensity at peak and so on.
光学微腔是目前凝聚态物理的研究热点,它能够改变自发发射的特性(谱线宽度、发光强度等)。
Optical microcavity arouses great interest in condensed state physics. It can change characters of spontaneous emission, such as spectral full width at half-maximum, light intensity at peak and so on.
光学微腔是目前凝聚态物理的研究热点,它能够改变自发发射的特性(谱线宽度、发光强度等)。
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