摘要
随着光学技术的发展,人们对光场与微粒相互作用的研究越来越深入.通过研究驻波场中非均匀手性粒子的辐射力特性,可以深入了解光场对微粒的影响机制,为微纳米尺度下分层手征粒子的操控和应用提供新思路.本文对双高斯波束照射下非均匀手征分层粒子的辐射力展开研究.从广义洛伦兹-米氏理论(generalized Lorentz-Mie theory,GLMT)和球矢量波函数(spherical vector wave functions,SVWFs)出发,推导了双高斯波束(double Gaussian beams,DGBS)的总入射场展开系数.基于边界连续条件和电磁动量守恒定理,得到双高斯波对粒子的辐射力表达式.通过与现有文献进行比较,证明了理论和程序的正确性.详细分析了各种参数对辐射力的影响,如束腰宽度、偏振形式、粒子半径、内外手征参数、折射率、最外层厚度等.研究表明,与单个高斯束相比,反向传播的高斯驻波在捕获或限制非均匀手性分层粒子方面表现出显著优势,提供了更强的粒子操控能力.此外,通过选择合适的偏振态入射,可以在这些参数之间实现微妙的平衡,从而有效地稳定俘获非均匀手性粒子.这些研究对于分析和理解形状复杂多层生物细胞的光学特性具有重要意义,并在多层生物结构微操控方面具有重要应用价值.
With the development of optical technology,the investigation of light-field-particle interactions has gained significant momentum.Such studies find widespread applications in optical manipulation,precision laser ranging,laser gas spectroscopy,and related fields.In optical manipulation techniques,employing two or more laser beams proves more effective for capturing and manipulating particles than using a single beam alone.In addition,with the increasing demand for manipulating particles with complex structures,it is necessary to conduct in-depth research on the radiation force characteristics of double Gaussian beams on non-uniform chiral particles.This research aims to deepen our understanding of how optical fields influence particles,thereby offering fresh perspectives in manipulating and utilizing non-uniform chiral layered particles on both a microscale and a nanoscale.Based on the generalized Lorentz-Mie theory(GLMT)and spherical vector wave functions(SVWFs),the total incident field of a double Gaussian beam can be expanded by using the coordinate addition theorem.The incident field coefficient and scattering coefficient of each region of the multilayer chiral sphere are obtained by enforcing boundary continuity and employing multilayer sphere scattering theory.The radiation force acting on non-uniform chiral layered particles within a double Gaussian beam is then derived through application of the electromagnetic momentum conservation theorem.The theory and programs in this paper is compared with those in existing literature.The influence of various parameters on the radiation force is analyzed in detail,such as the incident angle,polarization angle,beam waist width,beam center position,and internal and external chiral parameters.These results indicate that compared with a single Gaussian beam,counter-propagating Gaussian standing waves exhibit significant advantages in capturing or confining inhomogeneous chiral layered particles,offering enhanced particle manipulation capabilities.Additionally,by selecting
作者
白靖
马文浩
葛城显
吴振森
许彤
Bai Jing;Ma Wen-Hao;Ge Cheng-Xian;Wu Zhen-Sen;Xu Tong(School of Electronic Engineering,Xi’an University of Posts&Telecommunications,Xi’an 710121,China;The 39th Research Institute of China Electronics Technology Corporation,Xi’an 710065,China;School of Physics and Optoelectronic Engineering,Xidian University,Xi’an 710071,China)
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2024年第18期145-161,共17页
Acta Physica Sinica
基金
国家自然科学基金(批准号:62001377,62101445,61571355,61601355,61308025)
陕西省自然科学基金(批准号:2023-JC-QN-0657,2023-JC-QN-0774,2022KJXX-95)
西安市科协青年人才托举计划(批准号:959202313013)资助的课题。
关键词
双高斯波束
辐射力
非均匀手征分层粒子
dual Gaussian beams
radiation force
non-uniform chiral stratified particles
