The potential application of PCF are demonstrated on one aspect.
从一个方面说明了光子晶体光纤的潜在应用。
The potential applications of PCF are demonstrated on one aspect.
从一个方面说明了光子晶体光纤的潜在应用。
Follow instruction and measuring document, fixed sub assembly in PCF.
根据操作指导书及测量文件,在PCF上安装相互匹配的分总成零件。
The paper described Fe foam produced by a Powder-Compact Foaming (PCF) process.
本文研究的是粉体致密化发泡法(PCF)制备铁基泡沫工艺。
The field characteristics of PCF are analyzed using the orthogonal function method.
利用正交函数法研究了光子晶体光纤的模场特性。
Pointed out the advantages and the feasibilities of choosing PCF as a enlarge medium.
指出了选择光子晶体光纤作为放大媒质的可行性及优势。
The propagation characteristics of PCF are wholly determined by its transversal structure.
光子晶体光纤的传输特性完全由其横向结构决定。
This paper just focuses on the PCF, and pays much attention to the theoretic analysis of PCF.
本文就围绕着光子晶体光纤进行研究,将重点放在光子晶体光纤的理论分析上。
The photonic crystal fiber (PCF) has a lot of peculiar features and broad prospects of application.
光子晶体光纤(PCF)有着许多奇异的特点和广泛的应用前景。
Conclusion PCF has significant radioprotective effects on UVB-irradiated murine thymocytes in vitro.
结论:PCF对小鼠胸腺淋巴细胞具有明显的辐射保护作用。
Finally, PCF with large air holes and its applications in dispersion compensation were also discussed.
最后讨论了大空气孔光子晶体光纤的特性及其在色散补偿中的应用。
The dynamics of the semiconductor laser with phase conjugation feedback (PCF) is studied in the paper.
本文研究了相位共轭反馈对半导体激光器的动力学行为的影响。
With this model, the effective index of PCF cladding with different structure parameters was discussed.
应用此模型对不同结构光子晶体光纤包层区的等效折射率与波长的关系进行了讨论。
This dissertation covers the study of entangled photon-pairs generation in photonic crystal fiber(PCF).
本文的研究目标是:光子晶体光纤中纠缠光子对的产生。
Cellular ultrastructure also indicated that PCF could maintain the integrity of cellular ultrastructure.
细胞的超微结构还表明PCF能维持细胞结构的完整性。
In the dissertation, we analyze the structure traits of PCF and its applications in quantum communication.
本文对光子晶体光纤的结构特性及其在量子通信中的应用进行了分析。
The photonic band-gap of triangle structure photonic band-gap PhotonicCrystal Fiber (PBG-PCF) is computed by FPWM.
利用全矢量平面波法计算了三角结构的光子带隙型光子晶体光纤的带隙分布。
The photonic crystal fiber(PCF) with a special envelop structure induces the light by photonic bandgap(PBG) effect.
该文提出了一种利用转移矩阵来计算一维光子晶体的光子禁带结构的新方法。
The photonic crystal fiber (PCF) with a special envelop structure induces the light by photonic bandgap (PBG) effect.
光子晶体光纤(PCF)是一种具有特殊包层结构的光纤,它是利用光子禁带效应(PBG)来导光的。
Low loss connection of fiber optic rotary is realized by direct coupling of fiber, which is photon crystal fiber (PCF).
该设计以光子晶体光纤为基础,采用直接耦合的方法实现低损耗的光纤旋转连接。
Now, researches have revealed that PCF also have much more traits that promise PCF would be applied in a more wide range.
而光子晶体光纤的研究已经表明,光子晶体光纤的应用远不止此,它还有着更广阔的应用天地。
In this paper we reported an experimental study of the pulse-to pulse phase coherence of an PCF generated super-continuum.
本文对光子晶体光纤扩谱产生的超连续光学频率梳的脉冲-脉冲相位相干性进行了实验研究。
We introduce three unique properties of PCF which are endlessly single mode, controllable dispersion and high nonlinearity.
本文概述了光子晶体光纤的三个突出的优点:单模传输特性、高非线性效应和可控群速度色散特性。
Photonic crystal fiber (PCF) has more excellent properties than common fiber, such as single mode, dispersion and nonlinearity.
光子晶体光纤(PCF)与普通光纤相比有着优秀的单模特性、色散特性和非线性特性。
The group velocity dispersion properties of photonic crystal fiber (PCF) were investigated in detail by equivalent index model.
应用等效折射率模型对折射率导模光子晶体光纤的群速度色散特性进行了详细的讨论。
The numerical simulation and analysis show that this type of PCF will find extensive applications in dispersion compensation fibers.
数值模拟和分析表明,该光子晶体光纤在色散补偿型光纤方面具有广泛的应用前景。
A novel photonic crystal fiber (PCF) with layered microstructures was designed and investigated by the vector finite element method.
采用矢量有限元法分析和设计了一种新型的层状微结构光子晶体光纤。
The effect of hole size on nonlinearity and dispersion of the photonic crystal fiber(PCF) is analyzed by the plane wave expansion method.
采用平面波展开法,研究了气孔尺寸对光子晶体光纤色散特性和非线性的影响。
A novel model for light propagation in elliptical hole photonic crystal fibers (PCF) is developed with localized orthogonal function method.
采用正交函数算法,提出了一种新型椭圆孔光子晶体光纤的本地正交函数模型。
Then in analogy with the theory of step-index fibers, the effective index of the fundamental mode and the dispersion of PCF can be calculated simply.
然后通过用类似于阶跃折射率型光纤的理论,很容易计算出光子晶体光纤的基模模式折射率和色散。
应用推荐