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采用自制的1018 nm光纤激光器做泵浦源,建立了全光纤同带泵浦的宽带掺镱超荧光光纤光源实验系统,首次利用同带泵浦对单程前向结构的超荧光产生进行了深入的实验研究。研究结果表明:基于同带泵浦的掺镱超荧光光源的斜率效率高达88%,半极大全宽度(Full Width at HalfMaximum,FWHM)最宽可以达到14.81 nm。掺镱光纤长度的改变,将影响超荧光光源的最大输出功率、斜率效率及中心波长,随着掺镱光纤长度的增加,最大输出功率和斜率效率下降,中心波长红移。固定光纤长度,改变泵浦功率,随着泵浦功率的增加,超荧光的最大功率和FWHM增加,光谱中心波长偏移很小。在掺镱光纤长度为5.7 m时,超荧光光源的最宽FWHM为14.81 nm,斜率效率在80.3%以上,输出功率的波动小于1%,没有驰豫振荡出现。 相似文献
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侧面泵浦Nd:YAG连续激光器 总被引:2,自引:0,他引:2
介绍了一种二极管侧面泵浦的Nd:YAG连续激光器,采用了简单、实用的侧面泵浦结构,获得了37.9W的连续1.064nm的激光输出,斜效率为31.5%,光效率为23.7%。 相似文献
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侧面分布式泵浦双包层脉冲光纤放大器 总被引:1,自引:1,他引:0
采用自行研制的光纤侧面耦合器,设计和研制了侧面分布式泵浦、两级全光纤连接的掺镱双包层脉冲光纤放大器,实现了输出波长为1064nm、平均输出功率达到2.12W、脉冲宽度20ns、重复频率50kHz的高功率、高重复频率全光纤结构脉冲光纤放大器.光纤侧面耦合器对泵浦光耦合效率最高达到69%,对反向信号光的隔离度最低为17dB,有效避免了高功率脉冲回波对泵浦光源的损害,使用更高泵浦耦合效率的侧面耦合器,可进一步提高放大器输出功率. 相似文献
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为了对同向抽运光纤喇曼放大器的功率转换效率进行研究,由耦合方程出发,采用龙格-库塔算法的数值模拟方法,详细分析了所有物理因素对同向抽运光纤喇曼放大器功率转换效率的影响. 结果表明,功率转换效率先随着光纤长度的增加而增加,当增加到最大值时保持数值不变;并且功率转换效率也随着初始信号光功率、光纤喇曼增益系数、信号光损耗系数的增加而增加,但随着光纤有效面积、抽运光损耗系数、抽运光与信号光的频率比的增加而减小;功率转换效率和初始抽运光功率呈抛物线曲线关系. 这对同向抽运光纤喇曼放大器功率转换效率的进一步研究以及光纤喇曼放大器的相关研究有一定参考意义. 相似文献
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We present a review of light-emitting materials and devices that combine inorganic and organic lumophores and hosts. The essence of this hybrid inorganic/organic (I/O) approach is to combine materials, structures and devices from each category in such a way as to obtain best-of-both-worlds performance. The combination of high power/high efficiency inorganic light pump sources with high conversion efficiency organic lumophores is discussed in detail. In this type of Hybrid I/O device, near-ultraviolet (UV) or blue pump light is selectively converted to various visible colors based on the molecular structure of each lumophore. Since the lumophores are optically pumped their reliability is greatly increased compared to electrically pumped organic emitters. Methods for coupling the light from pumps to lumophores include direct path excitation (DPE) and light wave coupling (LWC). DPE uses one pump per lumophore pixel, which allows for active matrix style addressing, but requires large arrays of pumps. LWC uses either a single source or a small number of pump sources. To obtain pixelation for Hybrid I/O LWC devices we have developed a novel electrowetting switching method. Examples of Hybrid I/O displays and solid-state lighting are discussed. 相似文献
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高功率光纤放大器中光纤端面处理分析 总被引:5,自引:4,他引:1
光纤端而进行斜而抛光一直是高功率光纤放大器中抑制ASE和自激振荡的关键技术.根据放大器结构建立了光纤端面信号光注入、信号激光输出以及泵浦光耦合的物理模型,数值模拟了不同光纤斜端面角度下信号光、泵浦光的耦合效率,纤芯端而的回波损耗.结果表明信号光注入端而斜面处理会导致耦合效率降低,输出端面斜角处理可有效减小端面反射率,而微小斜角对泵浦激光进入光纤内包层的耦合效率影响不大;根据不同的光纤参数选择合理的斜角处理可以有效提高放大器性能. 相似文献
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J.P. Zhang D.Y. Chu S.L. Wu W.G. Bi R.C. Tiberio C.W. Tu S.T. Ho 《Photonics Technology Letters, IEEE》1996,8(8):968-970
We have obtained directional light output from a recently realized InGaAsP photonic-wire microcavity ring lasers. The output was achieved by fabricating a 0.45-/spl mu/m-wide U-shape waveguide next to a 10-/spl mu/m diameter microcavity ring laser. The laser has a threshold pump power of around 124 /spl mu/W when optically pumped at 514 nm. It is comparable to the former structure without output coupling. The output coupling efficiency can be controlled carefully by choosing the spacing between the laser cavity and the waveguide. 相似文献
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利用仿真软件分析了侧面泵浦(N+1)×1耦合器不同泵浦臂数量对侧面泵浦耦合器效能的影响,并在实验中验证了分析结果,得到侧面泵浦耦合器中耦合效率随着泵浦臂数量增多呈下降趋势这一结论.根据这一结论制作了侧面泵浦(2+1)×1耦合器,输出泵浦功率681 W,输出功率为同泵浦源(1+1)×1耦合器的两倍,有效地减少了因泵浦臂数量影响造成的耦合器总功率缺失. 相似文献
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A novel scheme is presented that can be used to efficiently pump optical waveguide amplifiers. It is based on the coupling between two adjacent waveguides, where pump light is gradually coupled from a nonabsorbing pump waveguide into the amplifier waveguide. The coupling between the waveguides in such a configuration is calculated using an improved coupled mode theory (CMT). The proposed distributed coupling scheme can enhance the optical gain in systems that exhibit a reduced pumping efficiency at high pump power. A numerical example is given for a sensitized neodymium-doped polymer waveguide amplifier, in which the optical gain increases from 0.005 dB to 1.6 dB by changing from conventional butt-coupling to distributed coupling 相似文献
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为了发挥单管半导体激光器的优势,获得光纤耦合模块多波长、高功率、高亮度的光束输出,利用ZEMAX软件仿真模拟,设计了一种单管光纤耦合模块。此模块将32支输出波长分别为915 nm、975 nm,输出功率为15 W的单管半导体激光器,经过微透镜组快慢轴光束整形、空间合束、偏振合束、波长合束以及光束聚焦等一系列工艺后,耦合进芯径200 m、数值孔径0.22的光纤。模拟结果显示,光纤输出功率467.46 W,光纤前后耦合效率大于98.47%,总耦合效率高于97.39%,光功率密度高于12.86 MW/(cm2sr),达到了泵浦激光器和功率型器件的性能要求。使用Solidworks软件设计了相应的底板结构,并结合ANSYS软件进行散热模拟分析,结果显示该模块散热性能良好,可行性较高。 相似文献
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