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通过研究发现双包层结构能降低石英基光子晶体光纤损耗,并制备一种高非线性双包层结构石英基光子晶体光纤来进行实验研究.使用钛宝石飞秒激光器将实验室自制的石英基光子晶体光纤在反常色散区泵浦,研究不同的泵浦功率和泵浦波长对中红外超短脉冲孤子的影响,并分析了石英基高非线性光子晶体光纤中红外超短脉冲孤子产生的物理机理.结合实验发现在泵浦功率为827 nm,功率从0.1 W增加到0.42 W时,中红外第一个孤子随功率增加从1933 nm移动到2403 nm,可调范围达到470 nm,为石英基光子晶体光纤产生宽带可调超短脉冲源创造了很好的条件. 相似文献
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《Progress in Quantum Electronics》2014,38(5):189-235
Mid-infrared (mid-IR) supercontinuum (SC) sources have recently gained much interest, as a key technology for such applications as spectral molecular fingerprinting, laser surgery, and infrared counter measures. However, one of the challenges facing this technology is how to obtain high power and broadband light covering a spectral band of at least 2–5 µm, especially with a very efficient output power distribution towards the mid-IR region. This directly affects their usage in the practical applications mentioned above. Typically, an SC is generated by pumping a piece of nonlinear fibre with high-intensity femtosecond pulses provided by mode-locked lasers. Although this approach can lead to wide continuum generation, the output power is limited only to the milliWatt level. Therefore, to achieve high-power SC light, other laser systems need to be employed as pump sources.This paper briefly reviews SC sources, restricted to those with an average output power of over 0.4 W and simultaneously with a long-wavelength edge of the continuum spectrum of over 2.4 µm. Firstly, the concepts of SC generation, including the nonlinear phenomena governing this process and the most relevant mid-IR fibre materials, are presented. Following this study, a review of the main results on SC generation in silica and soft-glass fibres, also including my experimental results, is presented. Emphasis is given to high-power SC generation with the use of different pump schemes, providing an efficient power distribution towards longer wavelengths. Some discussion and prospective predictions are proposed at the end of the paper. 相似文献
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TDFA最新研究进展 总被引:5,自引:1,他引:4
掺铥光纤放大器(TDFA)在石英光纤的低损耗S波段(1450-1510nm)对信号进行有效的放大,目前已成为通信领域内竞相开发的一种新型光 纤放大器,本文首先简单介绍了其研究历程,然后综述了其最亲研究进展及应用情况。 相似文献
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《Optical Fiber Technology》2013,19(4):348-358
We investigate the modulational instability induced supercontinuum generation (MI-SCG) under versatile saturable nonlinear (SNL) responses. We identify and discuss the salient features of saturable nonlinear responses of various functional forms such as exponential, conventional and coupled type on modulational instability (MI) and the subsequent supercontinuum (SC) process. Firstly, we analyze the impact of SNL on the MI spectrum and found both analytically and numerically that MI gain and bandwidth is maximum for exponential nonlinearity in comparison to other types of SNL’s. We also reported the unique behavior of the SNL system in the MI dynamics. Following the MI analysis, the proceeding section deals with the supercontinuum generation (SCG) process by virtue of MI. We examine exclusively the impact of each form of SNL on the SC spectrum and predicted numerically that exponential case attains the phase matching earlier and thus enable to achieve broad spectrum at a relatively shorter distance of propagation than the other cases of SNL’s. Thus a direct evidence of SCG from MI is emphasized and the impact of SNL in MI-SCG is highlighted. To analyze the quality of the output continuum spectrum, we performed the coherence analysis for MI-SCG in the presence of SNL. 相似文献
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We numerically studied supercontinuum generation in a tapered photonic crystal fiber with flattened dispersion properties.The fiber was weakly tapered to have normal dispersion at wavelengths around 1.55 μm after a certain distance.We pumped 4 ps pulses with low peakpower and found that flatly broadened, wideband supercontinuum was generated in telecommunication windows.Furthermore, we also demonstrated the effects of tapered length and pulse width of the pump pulse on supercontinuum generation. 相似文献
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利用飞秒激光在充氩气的Kagome结构空芯光子晶体光纤中产生了高亮度宽带的超连续光谱.通过改变填充气体的气压以及输入激光的单脉冲能量可以对产生的超连续光谱进行控制.利用中心波长980 nm的飞秒脉冲作为抽运获得了光谱范围覆盖340~1 550 nm的宽带超连续光谱.通过基于载波的单向脉冲传输方程研究了超短脉冲在充氩气的Kagome光纤中产生超连续光谱的动力学过程. 相似文献
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为了分析掺铒光纤脉冲超辐射放大器的输出特性,通过对时变激光速率方程求解的方法,进行了理论分析和数值验证,获得了系统对不同调制频率的响应和输出特性.结果表明,在一定频率范围内,将产生高峰值超辐射脉冲序列.用0.1W抽运1m铒光纤放大,种子具有纳秒级调制周期且占空比为1/2时,输出脉冲峰值渐减,约200ns后渐趋稳定.通过调节种子信号的光谱特性、调制特性并选择合适的光纤参数,可以控制放大脉冲性质.这一结果为利用超辐射光纤光源产生高功率、光谱性质可调的脉冲提供了有效途径,在1.5μm大气窗口及远程应用中具有实际价值. 相似文献
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为了研究自相似演化对于高功率超短脉冲系统产生的影响,采用非线性薛定谔方程,对掺镱光纤放大器中自相似解进行了理论分析,得到初始脉冲、脉冲宽度、增益系数、增益色散等参量变化时对其自相似演化产生不同的影响.结果表明,初始脉宽不同时,只有其初始色散长度和光纤长度相接近时,才可以实现脉冲自相似的演化;初始输入脉冲不同时均能演化成抛物线形,但是演化的进程不同;大的增益系数可以获得高功率、宽频谱的自相似脉冲;增益色散对自相似放大起滤波作用.研究结果对设计自相似脉冲放大器具有一定的借鉴价值. 相似文献
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CdSe/ZnS和PbSe量子点光纤及光纤放大器研究进展 总被引:2,自引:0,他引:2
近年来,纳米晶体(量子点)以及量子点光纤、量子点光纤放大器成为一个研究热点。介绍了CdSe/ZnS和PbSe量子点的光谱特性以及量子点的吸收-辐射截面,表明量子点具有强的吸收和发射。总结了低浓度和较高浓度CdSe/ZnS量子点掺杂光纤、熔融法及溶胶凝胶法制备PbSe量子点光纤材料的最新研究进展,分析了两种方法制备量子点光纤材料的优缺点,概述了PbSe量子点光纤放大器的研究近况,展望了量子点光纤的应用前景。 相似文献
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介绍了光纤光学参量放大器的理论,基于耦合波方程推导出光纤光学参量放大器的增益表达式.以增益表达式为基础,详细分析了在典型参数下光纤光学参量放大器的性能.在单泵浦情况下,对不同光纤长度、不同泵浦功率及不同泵浦波长的光纤光学参量放大器做了性能分析.在双泵浦情况下,对不同泵浦波长的光纤光学参量放大器做了性能分析.研究结果表明,在典型参数情况下的双泵浦光纤光学参量放大器具有较好的特性. 相似文献
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采用分布傅立叶方法求解了广义非线性薛定谔方程(GNSE),数值模拟了飞秒激光脉冲在微结构光纤中的非线性传输和超连续谱的产生,详细分析了脉冲拉曼散射、自陡峭效应以及三阶色散对超连续光谱产生的影响。分析结果表明:超短脉冲在微结构光纤中传输时出现孤子自频移现象,同时也发现脉冲内拉曼散射和自相位调制的联合作用导致高阶孤子分裂,光谱得到极大展宽,在时域中出现两个滞后的拉曼孤子,三阶色散和自陡效应对光谱的形状影响较小,起着与脉冲内拉曼散射相反的作用,自陡效应比三阶色散效应对光脉冲的影响大一些。 相似文献
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为了精确模拟脉冲放大器中的受激布里渊现象,修正了脉冲光纤放大器中受激布里渊散射瞬态演变模型,建立了基于Er/Yb共掺双包层光纤中动态速率方程的受激布里渊散射的瞬态模型,同时包括了受激布里渊散射的信号光能量转移和反转粒子数消耗两个增益获得过程,采用有限差分的方法,分析了受激布里渊散射在高功率、低重复频率、窄脉冲光纤放大器中对输出脉冲信号单脉冲能量、峰值功率、频谱和时域波形的影响。搭建了两级放大的主振功率放大实验平台,利用重复频率为156kHz的调Q脉冲信号进行了高功率脉冲放大实验,得到了1.32W的平均功率输出,以及受激布里渊级联频谱和时域波形情况。结果表明,实验与理论分析相吻合,同时也验证了这个修正模型的正确性和有效性。 相似文献
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