共切相位调制RAiGV自愈特性的理论研究

Y.-G. Kuang, Kaichen Pi, Baoxing Xiong, Fan Gao, Xiang Zhang, Xiao Yuan
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摘要

由于其自愈特性,环形艾里高斯涡旋光束(RAiGV)在粒子捕获和处理、激光医疗和超分辨率成像等领域具有潜在的应用前景。本文提出了一种共切相位调制RAiGV,并对其自愈特性进行了数值模拟研究。结果表明,光束在传输过程中会分裂成多个波瓣。每个叶瓣由一个主叶瓣和多个副叶瓣组成,叶瓣不断收缩、旋转和收敛;当其中一个波瓣被完全阻塞或当光束的所有侧波瓣被阻塞时,光束不具有自愈能力;当光束的所有主瓣都被阻塞,阻塞光束的最内环,或阻塞光束的所有外环时,光束具有自愈能力。经过一定距离的传输后,光束场与自聚焦光束场基本一致。
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Theoretical study on the self-healing property of cotangent phase modulated RAiGV
Due to its self-healing property, the Ring Airy Gaussian Vortex Beams (RAiGV) have potential applications in the fields of particle capture and handling, laser medical treatment, and super-resolution imaging. This paper proposes a cotangent phase modulated RAiGV, and carries out a numerical simulation study on its self-healing property. The results show that the beam will split into multiple lobes during the transmission process. Each lobe consists of a main lobe and multiple side lobes, and the lobes shrink, rotate and converge continuously; when one of the lobes is completely blocked or when blocking all the side lobes of the beam, the beam does not have the self-healing ability; when all the main lobes of the beam are blocked, blocking the innermost ring of the beam, or blocking all the outer rings of the beam, the beam has the self-healing ability. After a certain distance of transmission, the beam field is basically the same as the selffocusing beam field.
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