Propagation dynamics and radiation forces of circular Bessel Gaussian beams carrying power-cotangent-phase vortices

IF 3.2 2区 物理与天体物理 Q2 OPTICS Optics express Pub Date : 2024-08-05 DOI:10.1364/oe.532969
Jian Yu, Shandong Tong, Zhe Zhang, Huihong Long, Yuan Luo, Peichao Zheng, Zhiyong Bai
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Abstract

In this paper, the circular Bessel Gaussian beams (CBGBs) carrying power-cotangent-phase vortices are firstly introduced, whose propagation dynamics are explored theoretically and experimentally. The number of spiral lobes, rotation direction, rotation angle, and shape of the new type of beam can be flexibly modulated by controlling multiple parameters of power-cotangent-phase vortices. Accordingly, the effect of multiple beam parameters on abruptly autofocusing ability is quantified and compared by using the K-value curve that is described by ratio Im/I0, where Im and I0 correspond to the maximum intensities at different propagation distance and the initial plane, respectively. The physical mechanism of intensity distribution variation depended on the propagation distance and power-cotangent-phase parameters are also demonstrated convincingly by employing the Poynting vector. In addition, the advantages and applications of the proposed beam as a tool for the Rayleigh particle manipulation are analyzed theoretically. It is expected that the introduced beam can be useful for extending applications of optical vortices, particularly for multiple particle manipulation.
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携带动力切相涡旋的圆贝塞尔高斯光束的传播动力学和辐射力
本文首先介绍了携带动力切相涡旋的圆贝塞尔高斯光束(CBGB),并对其传播动力学进行了理论和实验探索。新型光束的螺旋叶片数、旋转方向、旋转角度和形状可通过控制功率-切相涡旋的多个参数灵活调制。因此,我们利用 K 值曲线来量化和比较多个光束参数对骤然自动聚焦能力的影响。K 值曲线由 Im/I0 比值描述,其中 Im 和 I0 分别对应于不同传播距离和初始平面上的最大强度。此外,还利用 Poynting 向量令人信服地证明了强度分布变化的物理机制取决于传播距离和功率-方位-相位参数。此外,还从理论上分析了所提出的光束作为瑞利粒子操纵工具的优势和应用。预计引入的光束可用于扩展光涡旋的应用,特别是多粒子操纵。
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来源期刊
Optics express
Optics express 物理-光学
CiteScore
6.60
自引率
15.80%
发文量
5182
审稿时长
2.1 months
期刊介绍: Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.
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