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Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力

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摘要

Based on the generalized Lorenz-Mie theory (GLMT), this paper reveals, for the first time in the literature, the principal characteristics of the optical forces and radiation pressure cross-sections exerted on homogeneous, linear, isotropic and spherical hypothetical negative refractive index (NRI) particles under the influence of focused Gaussian beams in the Mie regime. Starting with ray optics considerations, the analysis is then extended through calculating the Mie coefficients and the beam-shape coefficients for incident focused Gaussian beams. Results reveal new and interesting trapping properties which are not observed for commonly positive refractive index particles and, in this way, new potential applications in biomedical optics can be devised.

机译：基于广义洛伦兹-米理论（GLMT），本文首次揭示了均匀，线性，各向同性和球形假设负折射率上施加的光学力和辐射压力横截面的主要特征（NRI）粒子在三重状态下聚焦高斯光束的影响。从射线光学方面的考虑开始，然后通过计算入射聚焦高斯光束的Mie系数和光束形状系数来扩展分析。结果揭示了新的和有趣的俘获性质，而对于通常的正折射率粒子却没有观察到，因此，可以设计出在生物医学光学中的新潜在应用。

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期刊名称 Biomedical Optics Express
作者
Leonardo A. Ambrosio; Hugo E. Hernández-Figueroa;
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作者单位

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年(卷),期 2010(1),5
年度 2010
页码 1284–1301
总页数 18
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;生化遗传学;生化药理学;
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专利

1. Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory [J] . Leonardo A. Ambrosio, Hugo E. Hernández-Figueroa Biomedical Optics Express . 2010,第5期

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力
2. Calculation of the radiation trapping force for laser tweezers by use of generalized Lorenz-Mie theory. I. Localized model description of an on-axis tightly focused laser beam with spherical aberration [J] . James A. Lock Applied Optics . 2004,第12期

机译：使用广义的Lorenz-Mie理论计算激光镊子的辐射捕获力。一，球面像差同轴紧密聚焦激光束的局部模型描述
3. Calculation of the radiation trapping force for laser tweezers by use of generalized Lorenz-Mie theory. I. Localized model description of an on-axis tightly focused laser beam with spherical aberration [J] . James A. Lock Applied optics . 2004,第12期

机译：使用广义的Lorenz-Mie理论计算激光镊子的辐射捕获力。一，同轴球面像差紧聚焦激光束的局部模型描述
4. Integral Localized Approximation Description of v-th Order Bessel Beams in the Generalized Lorenz-Mie Theory and Applications to Optical Trapping [C] . L. A. Ambrosio, H. E. Hernandez-Figueroa PIERS 2011 Marrakesh;Progress in electromagnetics research symposium . 2012

机译：广义Lorenz-Mie理论中的v阶贝塞尔光束的整体局部逼近描述及其在光学陷印中的应用
5. New electro-optical applications of liquid crystals: From beam steering devices and tunable lenses to negative refraction and field-induced dynamics of colloids [D] . Pishnyak, Oleg 2009

机译：液晶的新电光应用：从光束转向设备和可调透镜到胶体的负折射和场致动力学
6. Spin angular momentum transfer from TEM00 focused Gaussian beams to negative refractive index spherical particles [O] . Leonardo A. Ambrosio, Hugo E. Hernández-Figueroa 2011

机译：自旋角动量从TEM00聚焦高斯光束转移到负折射率球形粒子
7. Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory [O] . Ambrosio, LA, Hernandez-Figueroa, HE 2015

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力

Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory

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