Study of Superoscillating Functions Application to Overcome the Diffraction Limit with Suppressed Sidelobes

3区 物理与天体物理 Q1 Materials Science
S. Khonina, Ekaterina Ponomareva, M. A. Butt
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引用次数: 0

Abstract

The problem of overcoming the diffraction limit does not have an unambiguously advantageous solution because of the competing nature of different beams’ parameters, such as the focal spot size, energy efficiency, and sidelobe level. The possibility to overcome the diffraction limit with suppressed sidelobes out of the near-field zone using superoscillating functions was investigated in detail. Superoscillation is a phenomenon in which a superposition of harmonic functions contains higher spatial frequencies than any of the terms in the superposition. Two types of superoscillating one-dimensional signals were considered, and simulation of their propagation in the near diffraction zone based on plane waves expansion was performed. A comparative numerical study showed the possibility of overcoming the diffraction limit with a reduced level of sidelobes at a certain distance outside the zone of evanescent waves.
超振荡函数在克服抑制副瓣衍射极限中的应用研究
克服衍射极限的问题并没有一个明确的有利的解决方案,因为不同光束的参数,如焦点光斑大小、能量效率和副瓣电平的竞争性质。详细研究了利用超振荡函数克服近场区外抑制副瓣的衍射极限的可能性。超振荡是一种现象,其中谐波函数的叠加包含比叠加中的任何项更高的空间频率。考虑了两种超振荡一维信号,采用平面波展开法对其在近衍射区的传播进行了模拟。数值比较研究表明,在消弱波带外一定距离处降低副瓣电平,可以克服衍射极限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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