光力基础

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Mamoru Tamura , Takudo Wada , Hajime Ishihara
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引用次数: 1

摘要

光具有动量,因此,如果材料吸收和/或散射光,就会对其施加力。利用光力的激光技术目前正引起相当大的关注。用于捕获、传输小粒子和测量粒子间力的光学操作是一种代表性技术。此外,光致力显微镜是一种很有前途的利用光力的扫描显微镜。近年来,光力技术已广泛应用于分子生物科学、有机光化学、材料工程、分子流体动力学等研究领域。在这些技术中,散射力、吸收力和梯度力等几种光学力发挥着各自的作用。在本文中,我们总结了光学力的基本原理,并给出了它们的基本表达式,用于光和物质系统的简化模型。这将有助于本期特刊的读者理解,在分析光的几何形状和物质系统所产生的光力现象的基本表达式中,是如何区分不同类型的力的。在观察了散射力和吸收力的简化情况后,我们引入了光力的一般公式,然后讨论了在激光几何和材料的特定情况下不同分量的出现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Basics of optical force

Light possesses momentum, and hence, force is exerted on materials if they absorb and/or scatter light. Laser techniques that use optical forces are currently attracting considerable attention. Optical manipulation for trapping, transporting small particles, and measuring the interparticle force is a representative technique. In addition, photoinduced force microscopy is a promising scanning type of microscopy using optical force. Optical force techniques have recently been used in various fields of research, such as molecular bioscience, organic photochemistry, materials engineering, and molecular fluid dynamics. In these techniques, several types of optical forces such as scattering, absorption, and gradient forces play their respective roles. In this article, we summarize the basics of optical forces and present their elementary expressions for using simplified models of light and matter systems. This will help the readers of this Special Issue to understand how different types of forces are distinguished in the basic expressions used for analyzing the optical force phenomena that appear depending on the light geometry and matter systems. After observing simplified cases of scattering and absorption forces, we introduce general formulae for the optical force and then discuss how different components appear in particular cases of laser geometry and materials.

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来源期刊
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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