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光子符合探测中的超亚波长模式。

Super sub-wavelength patterns in photon coincidence detection.

作者信息

Liu Ruifeng, Zhang Pei, Zhou Yu, Gao Hong, Li Fuli

机构信息

MOE Key Laboratory for Nonequilibrium Synthesis and Modulation of Condensed Matter, and Department of Applied Physics, Xi'an Jiaotong University, Xi'an 710049, People's Republic of China.

出版信息

Sci Rep. 2014 Feb 17;4:4068. doi: 10.1038/srep04068.

Abstract

High-precision measurements implemented with light are desired in all fields of science. However, light acts as a wave, and the Rayleigh criterion in classical optics yields a diffraction limit that prevents obtaining a resolution smaller than the wavelength. Sub-wavelength interference has potential application in lithography because it beats the classical Rayleigh resolution limit. Here, we carefully study second-order correlation theory to establish the physics behind sub-wavelength interference in photon coincidence detection. A Young's double slit experiment with pseudo-thermal light is performed to test the second-order correlation pattern. The results show that when two point detectors are scanned in different ways, super sub-wavelength interference patterns can be obtained. We then provide a theoretical explanation for this surprising result, and demonstrate that this explanation is also suitable for the results found for entangled light. Furthermore, we discuss the limitations of these types of super sub-wavelength interference patterns in quantum lithography.

摘要

在所有科学领域都需要利用光进行高精度测量。然而,光表现为一种波,经典光学中的瑞利判据给出了一个衍射极限,这使得无法获得小于波长的分辨率。亚波长干涉在光刻技术中有潜在应用,因为它突破了经典的瑞利分辨率极限。在这里,我们仔细研究二阶关联理论,以确立光子符合探测中亚波长干涉背后的物理原理。我们进行了一个用赝热光的杨氏双缝实验来测试二阶关联图案。结果表明,当以不同方式扫描两个点探测器时,可以获得超亚波长干涉图案。然后我们对这一惊人结果给出了理论解释,并证明该解释也适用于纠缠光的实验结果。此外,我们讨论了这些类型的超亚波长干涉图案在量子光刻中的局限性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5c8/3925945/43e361dfc3f9/srep04068-f1.jpg

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