排序方式: 共有125条查询结果,搜索用时 15 毫秒
81.
针对长程轮廓仪中的一个重要光学部件分束器,设计了一种菲涅耳双棱镜对分束结构。其功能是将一束正入射平行光分成两束间距可变、强度相等且光程差为零的平行光。对菲涅耳双棱镜对结构特点进行了详细的描述,并对基于菲涅耳双棱镜对分出的两束光在傅里叶透镜后焦面上的干涉条纹振幅分布和能量分布做了理论分析和数值仿真。分析和仿真结果表明,菲涅耳双棱镜对不仅具有已有的等振幅分束结构同样的功能,而且能使长程轮廓仪探测精度更高。对比菲涅耳双棱镜对与已有的4种等振幅分束结构的性能发现,菲涅耳双棱镜对兼备结构简单、满足等光程条件以及分出的两束光间距可变等优异分光效果,可作为已有等振幅分束结构的一种替代结构。 相似文献
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运用随机平衡法,研究可积反对称Duhem迟滞系统在非白噪声激励下的随机响应根据能量等价性,将Duhem迟滞系统转化成非迟滞的非线性系统;再运用随机平均法,导出关于系统能量It^O随机微分方程与相应的FPK方程;求解该方程得到平稳概率密度,从而可计算响应统计量。通过例子分析表明,本文方法的结果与数字模拟非常吻合。 相似文献
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以聚苯乙烯(PS)胶晶作为铸模,采用纳米铸造工艺及后续煅烧的方法合成了三维有序大孔Fe_2SiO_4/SiO_2@C纳米玻璃陶瓷锂离子电池负极材料。溶胶-凝胶工艺产生的凝胶在650℃氩气氛炉中煅烧后,Fe_2SiO_4纳米晶体从含铁元素的SiO_2基玻璃中结晶析出,形成由Fe_2SiO_4纳米晶体、铁离子(Fe3+)修饰的玻璃态SiO_2和非晶碳组成的三维有序大孔纳米玻璃陶瓷。在50 m A·g~(-1)电流密度下进行充放电时,其放电容量可达450 m Ah·g~(-1)以上,电流密度增加到250 m A·g~(-1)时可逆放电容量仍旧稳定地保持在260 m Ah·g~(-1),而具有同样有序大孔结构和含碳量的非晶态SiO_2@C材料的放电比容量在50 m A·g~(-1)电流密度时仅为15 m Ah·g~(-1)。这些结果表明,Fe_2SiO_4纳米晶体及Fe~(3+)有助于SiO_2基玻璃陶瓷实现可逆储锂过程。 相似文献
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使用衍射光学元件(DOE)作为投影光刻照明系统实现离轴照明(OAI)的光束整形匀光器件,能够在保持较高照明效率的基础上精确控制OAI光束的形状及光强分布.在矢量角谱传输方法的基础上,建立了投影光刻用DOE的矢量分析模型,并对标量方法设计的DOE在偏振照明情况下的匀光与整形性能进行了分析.分析结果表明DOE在大角度衍射、... 相似文献
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Output power spectrum clamping over C+L band (84 channels) is demonstrated experimentally on a standard 100-km single mode backward-pumped distributed fiber Raman amplifier (B-DFRA). The clamping is realized by pump adjustment based on a simple linear relation of individual pump power versus on-off gain level and gain tilt in its spectrum. The average clamping error over all channels are less than 0.32 dB within the experimental range. 相似文献
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The threshold of refractive index contrast (RIG) to open a photonic band gap can be reduced by symmetry breaking. For the case of square lattice composed by dielectric cylinders, the absolute band gap is demonstrated by inserting small rods in the centre of the lattices, and the threshold RIC is reduced to 3.8. As for the square lattices composed by air holes in dielectric, the minimal RIC required for an absolute band gap decreases to 2.20. 相似文献
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Considering spectrum tilt due to signal-to-signal Raman scattering (SSRS) in backward distributed fiber Raman amplifiers (B-DFRA), an inverse tilted on-off gain profile is adopted to achieve flat net gain. A simple approximate linear relationship of pump power at each wavelength versus on-off gain level and tilt was derived numerically and experimentally so that a novel control method was established. Since there are only 3 pre-determinable constants required for individual pump wave, it is easy to be realized. As an example, maximum errors less than 0.2 and 0.4 dB respectively for average gain and gain tilt were achieved over C+L band in 100-km back-pumped standard single-mode fiber (SMF) experimentally. 相似文献
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