排序方式: 共有16条查询结果,搜索用时 20 毫秒
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多色矢量高斯-谢尔模型光束的焦移和焦开关 总被引:7,自引:7,他引:0
从交叉谱密度矩阵的传输公式出发,对多色矢量高斯-谢尔模型(GSM)光束的焦移和焦开关作了详细的研究.插入偏振片之前,多色矢量高斯-谢尔模型(GSM)光束通过硬边光阑透镜分离光学系统后,有焦移,但无焦开关;而插入偏振片之后,会出现焦开关.改变偏振片的旋转角度可以控制焦开关的特性. 相似文献
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高斯光束通过多高斯光阑ABCD系统的传输 总被引:2,自引:2,他引:0
基于Collins公式和Sylvester定理,推导出高斯光束通过多高斯光阑傍轴ABCD光学系统的解析传输公式。并以数值计算例对公式的应用加以说明。 相似文献
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推导出多色高斯光束和高斯-谢尔模型光束通过杨氏实验双缝传输的谱强度公式.对完全空间相干光和部分空间相干光照明杨氏实验装置出现的光谱开关作了详细研究,并判断其是否属于奇点光学效应. 结果表明:多色场奇点光学效应的判据应当是光谱开关出现时的谱强度极小值Smin=0,而不是总光强极小值Imin=0. 当用多色高斯-谢尔模型光束照明杨氏实验装置时,在近场和远场产生的光谱开关都不属于奇点光学效应. 当用多色高斯光束照明杨氏实验装置时,只有远场产
关键词:
光谱开关
奇点光学效应
完全相干和部分相干
多色光场 相似文献
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使用傅里叶级数与有限个复高斯函数之和的乘积作为硬边光阑的窗口函数的近似式,提出了含硬边光阑近轴ABCD光学系统对光束变换的改进算法。以高斯光束的变换为例,推导出了一个表示为初等函数之和的近似解析传输公式。给出了数值计算结果,并与直接积分Collins公式和使用Wen方法的结果作了比较。研究表明,改进算法能兼顾计算精度和机时,并能用于远场和近场。而使用Wen方法时,在近场(小于0.12倍菲涅尔距离)有明显误差。 相似文献
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The influence of nonparaxiality on the spectral behavior in Young's experiment illuminated by partially coherent light 下载免费PDF全文
Starting from the Rayleigh--Sommerfeld diffraction integral, this
paper studies the spectral behavior in Young's experiment
illuminated by nonparaxial partially coherent light and compares
with the paraxial case, where the influence of nonparaxiality of
partially coherent light on the spectral shifts and spectral
switches is stressed. It is shown that there is a spectral shift in
the nonparaxial case relative to the paraxial one and the critical
position changes, at which the spectral switch occurs. The ratio of
the waist width to the central wavelength w0/λ0 and
relative spatial correlation length \De affect the spectral
difference. The smaller w0/λ0 is, the larger the
difference between the nonparaxial and paraxial results appears. The
effect of relative spatial correlation length Δ is relatively
small. 相似文献
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A detailed study of the spectrum of partially coherent beams diffracted at an astigmatic aperture lens is performed. Considerable attention is paid to the effect of astigmatism on spectral switches of polychromatic Gaussian Schell-model beams. It is shown that the spectral switch can also take place in the vicinity of intensity minimum in a geometrical focal plane for the astigmatic case, but the astigmatism of the lens and the spatial correlation of the beam affect the critical position u_c, spectral minimum S_{min}, and transition height Δ of spectral switches. 相似文献