共查询到16条相似文献,搜索用时 156 毫秒
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综述了掺铒超荧光光纤光源的国内外研究发展现状,详细探讨了单程前向、单程后向、双程前向、双程后向等几种典型的光源结构;分析了掺铒超辐射型光纤光源的输出特性与泵浦光波长、泵浦功率、光纤长度以及光学反馈的关系;并介绍了当前为改善光源带宽、平均波长稳定性以及输出功率这三个主要参数以满足高精度光纤陀螺的需求所做的一系列探索及研究现状,指出了其技术难点,对掺铒超荧光光纤光源的研究具有一定的参考价值。 相似文献
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优化设计了高功率、高效率掺铒光纤超荧光光源的参数。采用商用掺铒光纤,针对双程后向结构,首先仿真了光源输出功率和带宽随掺铒光纤长度的变化,并用对等实验验证了模拟结果,初步确定掺铒光纤长度的优化范围;理论研究了反射镜反射率对光源性能的影响,计算出最佳反射率并模拟了该反射率下光源的输出光谱;实验研究了抽运功率对光源平均波长的影响,确定了优化的抽运功率范围,并进一步确定了掺铒光纤的优化长度。实验选用110mW抽运功率,13.74m掺铒光纤,获得了输出功率为46.9mW的高功率光纤光源,其抽运转换效率可达42.6%,且光源保持了约34.54nm的宽带宽。 相似文献
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超荧光掺铒光纤光源技术是高精度光纤陀螺的关键技术之一,其优劣直接影响陀螺的性能。在完成铒纤长度优化设计的基础上,实验分析了泵浦功率对掺铒光纤光源平均波长以及带宽的影响,同时在-20-60℃的温度范围内,测量了不同泵浦功率条件下掺铒光纤光源平均波长、带宽和输出功率随温度的漂移。实验结果表明,当泵浦功率在60—120mW范围内时,平均波长受泵浦功率的影响约为-6.5ppm/mW,可以根据光纤陀螺对输出功率和带宽大小的要求在此范围内选择合适的泵浦功率。最终装配样机的平均波长的长期稳定性(6h)达到5ppm(峰-峰值),短期稳定性(1h)达到2ppm,可以在此基础上定制合适的光纤光栅滤波器,对ASE光谱进行滤波,使谱形满足高精度光纤陀螺的要求. 相似文献
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光纤陀螺要求其光源具有高功率、宽谱输出,同时在大温度范围内仍具有好的平均波长稳定性。为了满足-45℃~70℃大温度范围的应用需求,采用双程后向抽运、法拉第旋转反射、带通滤波等技术手段,对光纤材料和器件进行大温区全局优化,以改善超荧光光纤光源的平均波长稳定性。理论分析了不同中心波长和带宽的带通滤波器以及光纤长度等参量对平均波长稳定性的改善效果,以及和光谱带宽的关系。按照设计结果选择滤波、光纤长度等参量,通过对-45℃~70℃全温区范围进行系统全局优化设计,得到输出功率为32mW,功率稳定性为0.65%,光谱带宽为12.5nm,光源平均波长变化量为23.5×10-6。结果表明,平均波长稳定性在0.5×10-6/℃以下的高稳定性超荧光光纤光源中,32mW输出功率非常高;所得的0.2×10-6/℃是115℃大温差范围、30mW以上超荧光光纤光源中非常优异的平均波长稳定性指标,满足光纤陀螺对光纤光源的要求。 相似文献
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CHENSheng-ping LUKe-cheng LIYi-gang LIJia-fang ZHUJian-ping FENGMing LIJing 《半导体光子学与技术》2004,10(2):122-126
The effects of the variations in fiber length, fiber mirror reflectance on efficiency and output power are experimentally investigated for erbium-doped double pass backward superfluorescent fiber sources (SFSs). The influence of fiber length on mean wavelength stability (MWS) has also been demonstrated. By incorporating a short section of un-pumped erbium-doped fiber (EDF) at the output port, the pump power dependent on MWS becomes independent of pumped EDF length. This is a novel phenomenon that hasn‘t been reported up to now,and should be helpful to SFS fabrication and theory analysis. By using a fiber Michelson interferometer as spectrum slicing component,a multi-wavelength fiber source (MWFS) with ~20 channels (from 1542nm to 1559nm) is got. The MWFS has a channel spacing of ~0. 8 nm which satisfies ITUstandard. The intensity fluctuation among channels is less than 0.5dB,and the extinction ratio of all channels is above 14dB. This kind of MWFS should be useful to wavelength division multiplexing systems. 相似文献
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Wysocki P.F. Digonnet M.J.F. Kim B.Y. Shaw H.J. 《Lightwave Technology, Journal of》1994,12(3):550-567
The characteristics of 1.55 μm Er-doped superfluorescent fiber sources (SFS's), intended for fiber-optic gyroscope (FOG) applications, are explored theoretically and experimentally. With proper selection of the source configuration, fiber length, pump wavelength, pump power, and fiber composition, we show that it is possible to meet the stringent requirements of the FOG, including a high output power, broad emission bandwidth, and excellent spectral thermal stability. Variations of the mean wavelength, spectral width, and output power of the SFS with fiber length, pump power, pump wavelength, and temperature are modeled for representative sources pumped near 980 nm or 1.48 μm, and are shown to be in good agreement with experimental results. The effects of a multimoded pump, erbium ion pair, and optical feedback are also assessed. This study indicates that the Er-doped SFS is an excellent candidate for the FOG and for other applications requiring spatial coherence and low temporal coherence 相似文献
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Dagenais D.M. Goldberg L. Moeller R.P. Burns W.K. 《Lightwave Technology, Journal of》1999,17(8):1415-1422
This paper demonstrates a stable, broad-band two-stage superfluorescent source at 1.55 μm consisting of an erbium-doped fiber (EDF) seed source and a high-power Er-Yb fiber amplifier. The source exhibited from 140 to 220 mW of power, 18 to 28 nm bandwidth, with an estimated mean wavelength stability from 1 to 10 ppm. Operating conditions for the seed source and amplifier required to achieve these performance characteristics are described 相似文献
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报道了在前向结构中光纤前端输出处加用3dB耦合器制作的光纤圈反射器形成双程后向输出结构,实现了一种高平坦化的高功率光源。通过调节抽运功率及光纤长度等参量,实现3dB带宽达35.28nm(基本完全覆盖C波段),功率为7.679mW(8.85dBm)和平均波长为1545.881nm的超荧光光纤光源(SS)。与常用技术相比,该技术更简单,实用,同时提高了光源效率,稳定性好,易于降低成本,设计方便。由于L波段的超荧光的本身平坦度较好,此方案可得到高平坦度的C L波段高功率宽带超荧光输山,尤其适用于需要高平坦度高功率超荧光的场合。 相似文献
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