最后给出量子微腔激光器的新概念。
本文建立了半导体微腔的缀饰激子模型。
In this paper, we introduced the dressed exciton model of the semiconductor micro cavity device.
研究了有机聚合物微腔在光泵浦下的腔效应。
The cavity effects of organic microcavity under photo-pumping were studied.
作者对微腔型电极进行了电化学特性的表征。
The electrochemical characterization of its Pt working electrode was reported.
本文探讨了微腔激光器的分类、基本原理及特点。
In this paper, we discussed the classification, basic principles and characters of microlaser.
这个器件由两个线缺陷波导和两个点缺陷微腔构成。
It consists of two line defect waveguides and two point defect micro-cavities.
用电化学脉冲腐蚀法制备多孔硅微腔,优化了实验参数。
Firstly, PSMs were prepared by the pulsed electrochemical etching method and the experimental conditions were optimized.
而传统边发射激光器不属于微腔结构,对外光反馈的抑制能力较弱。
These characters can hardly hold true in edge-emitting lasers because of the limitations of their structure.
阿联锁微腔多孔结构提供了一个非常高的表面积(每克800平方米)。
A micro porous structure of interlocking cavities gives a very high surface area (800 square meters per gram).
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。
Microcavity effect has been achieved simply by adjusting the thickness of organic light emitting layer.
并通过明胶包埋法将半乳糖氧化酶固定在电极中,构成微腔型半乳糖传感器。
A galactose biosensor was constructed with the substrate working electrode of chamber-type microchip.
多孔硅微腔是采用交替变化脉冲腐蚀电流密度的方法制成的多孔度周期性变化的多孔硅结构。
Porous silicon microcavities were etched with alternate varied current density which made the porosity change periodically.
由于误差的存在 ,光子晶体点缺陷所形成的微腔的共振频率位置与理想情况发生了漂移 ;
The numerical results indicate: The bigger the errors of the radius of columns and the lattice constant are, the worse the transmission properties of photonic crystals are.
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。
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.
通过选择合适的脉冲次数、激光波长以及辅助气体工艺,可获得较理想的微腔形貌和表面质量。
With appropriated laser parameters (pulse times, wavelength) and assisting gas, a desired micro-structures and surface quality can be achieved.
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。
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.
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.
对这一现象的研究开辟了光波局域化和激光物理的新领域,而且可能研制出一种新型微腔激光器。
The study on this phenomenon will open up land of photon localization and new field of laser physics, and expect to develop a kind of new-type micro-cavity laser.
利用金属镜面微腔激光器中真空场和量子阱中电子态函数,对比了TE模和TM模的自发发射谱。
The transmission spectra of TM mode in the bend waveguide with triangular lattice of dielectric rods and TE mode in the bend waveguide have been calculated.
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。
Therefore the square resonator with an output waveguide is a promising candidate to realize single-mode directional emission 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。
Directional emission of light guided by quadrupolar-shaped quantum cascade microcavity lasers solves the difficulty about the directional emission of symmetrical microcavity lasers.
两条二维三角晶格空气孔光子晶体波导由一个光子晶体微腔连接,在微腔的点缺陷中填充苯乙炔类液晶。
Two photonic crystal waveguides are connected by photonic crystal cavity. The point defect of photonic crystal cavity is filled with phenylacetylene liquid cyrstals.
采用JXA-840A分析了微加工形貌,表明微腔(槽)表面留有一层致密的硬化层,且与基体结合良好。
The micro-structure of cutting grooves was analyzed with JXA-840A. It is found that the treated layers of grooves have a fine hardness property and good joining strength with the base metal.
基于二维光子晶体波导与点缺陷微腔共振耦合原理,设计了一种利用共振微腔作为反射的6 -信道下载滤波器。
A 6-channel drop filter with resonant micro-cavity reflector is designed based on the resonant coupled theory between the 2d photonic crystal waveguide and the 2d photonic crystal micro-cavity.
数值模拟表明,多体系集总热容法可以被用来估计微腔型PCR芯片的温度变化,并能够准确地预测芯片所需功耗。
Comparing with the numerical simulation, the present method can grasp the temperature ramping process correctly, and predict the power consumption.
讨论了双模量子环型微腔中二能级原子与腔场相互作用的动力学问题,分析了量子微腔的双模腔场和原子质心交换动量的过程。
The dynamic problem of interaction between a 2-level atom and double modes field is analyzed. It dealt with the process of exchange of momentum between the field and the atom.
在无径向柔性机构的情况下,防自转机构和涡旋盘会产生微自转,可导致压缩腔对压力不对称和产生径向泄漏。
Otherwise slight rotation would take place with that mechanism and orbiting scroll, resulting in asymmetric pressure within compression chamber pair and radial leakage.
在无径向柔性机构的情况下,防自转机构和涡旋盘会产生微自转,可导致压缩腔对压力不对称和产生径向泄漏。
Otherwise slight rotation would take place with that mechanism and orbiting scroll, resulting in asymmetric pressure within compression chamber pair and radial leakage.
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