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为了研究不同量子阱周期数下GaInAs/GaAsP多量子阱太阳能电池性能的变化规律,利用金属有机化学气相沉积技术(MOCVD)制备了不同周期数的双结多量子阱太阳能电池样品以及无量子阱双结结构的参考样品,利用高分辨率X射线衍射仪(HXRD)和高分辨率透射电镜(TEM)测试了样品的晶体质量,同时在AM0(1×)光谱条件下测试了样品的I-V特性曲线和相应子电池的外量子效率。最终得到了高晶体质量、吸收截止波长在954 nm的Ga_(0.89)In_(0.11)As/GaAs_(0.92)P_(0.08)多量子阱结构,扩展波段的外量子效率最高达到75.18%,电池光电转换效率相对于无量子阱结构提升2.77%。通过对比测试结果发现,随着量子阱结构周期数的增加,太阳能电池在扩展波段(890~954 nm)的外量子效率不断提高,常规波段的短波响应(300~700 nm)会出现下降,长波响应(700~890 nm)会出现上升,短路电流和转换效率相应提升并趋于饱和。 相似文献
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聚光系统的聚光效率和能量均匀性直接影响单位模组的发电效率。本文研究设计出高倍聚光模组系统,该系统主要包括菲涅耳透镜和球冠平顶微棱镜。采用中心波长修正法进行菲涅耳透镜的设计,并通过Zemax仿真模拟设计出球冠平顶微棱镜。最后通过Zemax模拟,决定选取两侧面夹角α的角度为117°,平顶到球面的间隔g为0.2 mm,球冠平顶微棱镜的曲率半径R为10 mm。聚光系统整体的聚光效率达99.8%,能量均匀度为0.812,并进行实验验证,得出实际聚光效率为83.1%。 相似文献
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熔融侧面泵浦耦合器光纤夹角对耦合效率的影响 总被引:1,自引:0,他引:1
泵浦耦合器是高功率光纤激光器的关键无源光器件,其制作工艺是采用泵浦光纤和主光纤侧面熔融的方法,该方法可以保持主光纤中信号光的低插入损耗,但泵浦光纤和主光纤之间的夹角对耦合效率影响较大。为解决这一问题,根据熔融侧面泵浦耦合器的结构特点,建立了物理模型,推导出各光纤中光功率与夹角关系的方程组,进行了数值仿真和实验论证,结果是随着泵浦光纤和主光纤之间夹角的减小,耦合效率会逐渐增大,但存在临界值,NA值小的泵浦光纤耦合效率高且临界角大,NA为0.22的泵浦光纤,夹角小于9.7时耦合效率最大值为96.9%,NA为0.15的泵浦光纤,夹角小于11.5时耦合效率最大值为97.8%。 相似文献
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通过对行波放大器储能及小信号增益进行理论计算,模拟出输出激光特性,即随着放大器泵浦电流的增加,放大器增益介质内储存能量和小信号增益系数快速增长,提取效率达到76%以上.输出能量随放大器泵浦电流的增加,呈线性增长趋势,在泵浦电流为80A时,输出光能量逐渐饱和,最大输出能量为798mJ.实验中,放大器入射光源采用脉冲能量为350mJ、重复频率为10Hz、脉宽为10ns的脉冲激光,放大器中的Nd∶YAG晶体棒尺寸为Φ7.5mm×134mm,Nd~(3+)的掺杂浓度为1.1%,泵浦功率最大24kW,使用三个最大功率为66 W的半导体制冷器进行半导体热电制冷,在重复频率为10Hz,泵浦电流为80A,泵浦脉冲宽度为200μs时,获得了最大脉冲能量为700mJ、脉冲宽度为10ns的激光输出,通过光束质量诊断仪M-200S测得输出光束在水平和垂直两个方向的光束质量分别是7.9和12.4. 相似文献
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500-W high average power,high beam quality Nd:YAG solid-state laser with one focusing reflector 总被引:1,自引:0,他引:1
In order to explore a 56-J high energy,high frequency lamp-pumped pulsed Nd:YAG solid-state laser, the main factors influencing the higher laser output energy are analyzed,the relation between output power and input power and reflectivity is simulated theoretically,and the effective measures to improve the efficiencies of the laser are brought forward.As a result,pulse width is tunable between 0.1 and 10 ms,frequency between 1 and 1000 Hz.When the input electrical power is 12 kW,the laser can output maximum single pulse energy of 56 J and average power of 500 W with the beam quality of 16.5 mm·mrad, total electro-optic efficiency of 4.2%,and the in stability of±2% output power.It is indicated that the parameters corresponds with the results of theoretical analysis and simulation. 相似文献
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CO2 laser is employed to join a piece of powder metallurgical material (PMM) to a stainless steel in butt joint welding mode. The powder Ni35, as a filler powder, is used. The weld metal comes from three parts of stainless steel, powder Ni35, and Cu in W-Cu PMM. It is indicated that some parts of the W-Cu base metal are heated by laser and the metal Cu at the width of 0.06-0.12 mm from the edge is melted into the melting pool in the laser welding process. The formation of firm weld joint is just because that the melting liquid metal could fill the position occupied by metal Cu and surround the metal W granules fully. The analysis results indicate that the mechanism of the laser welding for stainless steel and W-Cu alloy is a special mode of fusion-brazing welding. 相似文献
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