分光计
散射
光学
平面的
路径长度
光散射
足迹
光路
米氏散射
物理
材料科学
计算物理学
光电子学
计算机科学
古生物学
计算机图形学(图像)
生物
作者
Paris Varytis,Dan-Nha Huynh,Wladislaw Hartmann,Wolfram H. P. Pernice,Kurt Busch
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2018-06-28
卷期号:43 (13): 3180-3180
被引量:16
摘要
Compact spectrometers based on disordered planar waveguides exhibit a rather high resolution with a relatively small footprint compared to conventional spectrometers. This is achieved by multiple scattering of light, which-if properly engineered-significantly enhances the effective optical path length. Here a design study of random spectrometers for TE- and TM-polarized light is presented that combines the results of Mie theory, multiple-scattering theory, and full electromagnetic simulations. It is shown that the performance of such random spectrometers depends on single-scattering quantities, notably on the overall scattering efficiency and the asymmetry parameter. Further, the study shows that a well-developed diffusive regime is not required in practice and that a standard integrated-optical layout is sufficient to obtain efficient devices even for rather weakly scattering systems consisting of low index inclusions in high-index matrices, such as pores in planar silicon-nitride-based waveguides. This allows for both significant reductions in footprint with acceptable losses in resolution and for device operation in the visible and near-infrared frequency range.
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