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1)  Twin-hole fiber
双孔光纤
2)  high-birefringence holey optical fiber
高双折射多孔光纤
3)  Holey fibers
多孔光纤
1.
Holey fibers and the research of their birefringence;
多孔光纤及其双折射特性的研究
4)  holey fiber
多孔光纤
1.
Measurement of refractive index profile of holey fiber using quantitative phase tomography;
用相位恢复方法测量多孔光纤的三维折射率分布
2.
In succession, stability of fiber grating based on PCF, tunable property of temperature of long-period fiber grating based on polymer filled holey fiber and the theory of structural long-period gratings in photonic crystal fiber with nonphotosensitive core are discussed.
从光子晶体光纤(PCF)与普通光纤在光纤结构上的差异出发,简要分析了PCF的导光原理与单模特性,探讨了基于PCF的光纤光栅的稳定性,基于聚合物填充多孔光纤的长周期光纤光栅的温度调谐性能,以及纯结构性非光敏纤芯长周期光子晶体光纤光栅的原理,从一个方面说明了光子晶体光纤的潜在应用。
3.
The guidance properties of the holey fiber are determined by the solid-silica core region and the size and pattern of air holes.
 通过改变多孔光纤中的芯区面积、空气孔的直径和分布,可以灵活地设计其导波特性。
5)  side-hole fiber
边孔光纤
1.
A side-hole fiber with birefringence of 7.
75×10-5的边孔光纤和双折射为5。
2.
The intrinsic birefringence in circular-core side-hole fiber is reported.
对圆芯边孔光纤双折射的研究结果进行报道。
3.
The finite element method has been used to analyze the birefringence of K type side-hole fiber with elliptical core,and experiment to study the pressure and temperature sensitivities of the dual-peak gaps of reflection spectra resulted from K type sidehole fiber has been performed.
利用有限元方法对K型椭圆芯边孔光纤的双折射进行了分析,并对边孔光纤光栅的反射谱双峰间距的压力及温度敏感特性进行了实验研究。
6)  side hole fiber
边孔光纤
1.
Utilizing the property that the polarizations of the two reflection peaks of side hole fiber grating are orthogonal,the article has put forward a novel scheme to measure peak separation on the basis of polarization detection.
根据边孔光纤光栅两反射峰偏振态相互正交的特性,提出了一种新颖的基于偏振检测的双峰间距测量方案。
2.
The research results of a novel kind of side hole fiber and side hole fiber grating are reported.
报导了一种新型边孔光纤及边孔光纤光栅的研究结果。
补充资料:第二孔(继发孔)型缺损


第二孔(继发孔)型缺损
ostium secondary defect

是心房间隔在形成上发生障碍,一般缺损较大,多在卵圆孔附近称第二孔(继发孔)型缺损。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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