Improved design method for suppressing optical focal spots and experimental verification

IF 1.2 4区 物理与天体物理 Q4 OPTICS
Tao Liu, Jiaqi Hu, Tao He, Qiang Liu, Shanshan Chen, Shuming Yang, Guodong Zhang, Guanghua Cheng
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引用次数: 0

Abstract

AbstractPupil filtering is an effective method to modulate the 3D point spread function distribution of an optical system. Based on vector Debye-Wolf diffraction integral and a new fusion optimization algorithm, an improved method is described for efficiently designing the most widely-used concentric multi-belt pupil filters. The main advantage of this method is that it actively selects the minimum belt width and the total belt number for facilitating low-cost batch processing. Pupil filters for visible and near-infrared bands have been separately designed for improving the spatial resolution of optical imaging and ultrafast laser processing. The method has been experimentally demonstrated for suppressing the optical focal spot. The proposed method can be readily modified for designing more sophisticated multi-level pupil filters for practical applications in high-resolution imaging and fine laser micromachining.KEYWORDS: Pupil filtervector diffractionoptimizationlaser micromachining Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThis work was supported by the National Key Research and Development Program of China [grant No. 2023YFE0203800], Key Research and Development Program of Shaanxi Province [grant No. 2021ZDLGY12-06], Fundamental Research Funds for the Central Universities of China [grant No. XZD012022068], Shaanxi Provincial Department of Education Scientific Research Project [grant No. 22JK0313], Shaanxi University of Technology Science Foundation [grant No. SLGRCQD2132] and National Natural Science Foundation of China [grant No. 52105481].
改进的光学焦斑抑制设计方法及实验验证
瞳孔滤波是调制光学系统三维点扩展函数分布的一种有效方法。基于向量德拜-沃尔夫衍射积分和一种新的融合优化算法,提出了一种有效设计应用最广泛的同心圆多带瞳孔滤波器的改进方法。该方法的主要优点是主动选择最小带宽度和总带数,便于低成本批量加工。为了提高光学成像和超快激光处理的空间分辨率,分别设计了可见光和近红外波段的瞳孔滤光片。实验结果表明,该方法能有效抑制光学焦斑。该方法可以很容易地用于设计更复杂的多级瞳孔滤波器,用于高分辨率成像和精细激光微加工的实际应用。关键词:瞳孔滤光片矢量衍射优化激光微加工公开声明作者未报告潜在利益冲突。项目资助:国家重点研发计划项目[批准号:2023YFE0203800]、陕西省重点研发计划项目[批准号:2021ZDLGY12-06]、中央高校基本科研业务费专项基金[批准号:2021ZDLGY12-06];XZD012022068],陕西省教育厅科研项目[批准号:22JK0313],陕西理工大学科学基金[批准号:22JK0313];SLGRCQD2132]和国家自然科学基金[批准号52105481]。
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
Journal of Modern Optics
Journal of Modern Optics 物理-光学
CiteScore
2.90
自引率
0.00%
发文量
90
审稿时长
2.6 months
期刊介绍: The journal (under its former title Optica Acta) was founded in 1953 - some years before the advent of the laser - as an international journal of optics. Since then optical research has changed greatly; fresh areas of inquiry have been explored, different techniques have been employed and the range of application has greatly increased. The journal has continued to reflect these advances as part of its steadily widening scope. Journal of Modern Optics aims to publish original and timely contributions to optical knowledge from educational institutions, government establishments and industrial R&D groups world-wide. The whole field of classical and quantum optics is covered. Papers may deal with the applications of fundamentals of modern optics, considering both experimental and theoretical aspects of contemporary research. In addition to regular papers, there are topical and tutorial reviews, and special issues on highlighted areas. All manuscript submissions are subject to initial appraisal by the Editor, and, if found suitable for further consideration, to peer review by independent, anonymous expert referees. General topics covered include: • Optical and photonic materials (inc. metamaterials) • Plasmonics and nanophotonics • Quantum optics (inc. quantum information) • Optical instrumentation and technology (inc. detectors, metrology, sensors, lasers) • Coherence, propagation, polarization and manipulation (classical optics) • Scattering and holography (diffractive optics) • Optical fibres and optical communications (inc. integrated optics, amplifiers) • Vision science and applications • Medical and biomedical optics • Nonlinear and ultrafast optics (inc. harmonic generation, multiphoton spectroscopy) • Imaging and Image processing
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