光子晶体光纤的优异性能使其成为产生超荧光的优秀介质。
The properties of photonic crystal fiber (PCF) made it an excellent medium for supercontinuum generation.
用超短光脉冲激励染料溶液,进行超荧光的研究:1。超荧光光谱峰移动和光谱宽度;
The amplified spontaneous emission in dye solutions excited with powerpul picosecond light pulses is studied in two respects:1. spectral peak shift and the emission width;
附着在合成超细纤维上的内皮细胞,微管、肌动蛋白和胞核已染色(2500倍),荧光和激光共焦显微镜。
Endothelial cell attached to synthetic microfibers, stained with microtubules, F-actin and nuclei (2500x), Fluorescence, confocal.
本文报道了一种基于光谱预分割技术的多波长超荧光光纤光源。
Muti-wavelength superfluorescent fiber source based on spectrum pre-slicing technique is reported in this paper.
并以荧光光谱法测定了超分子体系的包结常数和包结比,对其包结机理进行了初步研究。
The formation ratio and binding constants of the supramolecular systems were determined by fluorescence spectrometry and an elementary research on its mechanism was performed.
简要介绍了掺铒超荧光光纤光源的工作原理、基本结构。
The operation principle and basic structure of Er-doped fiber super-fluorescent source is briefly presented.
结合实验室承担的科研项目,分析了分布式光纤光栅传感检测系统对掺铒光纤超荧光光源性能的要求。
So it is better than others. According to the project of our laboratory, the performance of fiber source used in distributed FBG sensing system is analysed.
对掺铒光纤超荧光光源的特性、基本原理、结构和数学模型作了系统地描述。
Then, systematically describes parameters, fundamental structures and mathematical model about erbium-doped fiber super-fluorescent source.
对掺铒光纤超荧光光源的特性、基本原理、结构和数学模型作了系统地描述。
Then, systematically describes parameters, fundamental structures and mathematical model about erbium-doped fiber super-fluorescent source.
应用推荐