Dynamic optical tweezers: Experiment

S. Mitatha, S. Noppanakeepong, J. Ali, P. Yupapin
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引用次数: 1

Abstract

We have experimentally generated the optical tweezers in the form of a dark soliton pulse using the Stimulated Brillouin Scattering (SBS) system. This is the first time ever found on the use of the highly intense pulse in the form of a dark soliton to perform the dynamic light trapping probe known as a “dynamic optical tweezers”. The advantage of the generated tweezers is that it can be used to transmit and transport the trapping atom/molecule into the optical device and communication network, which can be claimed as the dynamic optical tweezers transportation, for used in many frontier applications. The multi-optical tweezers generated, with high capacity regime can then be used for multi-optical tweezers transmission. The various applications to form the frontier research using photon, atom, molecule, DNA, electron and ion trapping for atomic tools, tiny synchrotron, molecular networks, bottom up atom/molecule assembly, ozone repair etc. are described. The experimental details and model of the optical tweezers generation and related characteristics are described. The interesting simulation results of a dark soliton generation for the optical tweezers are also analyzed and discussed in various applications.
动态光镊:实验
我们利用受激布里渊散射(SBS)系统实验产生了暗孤子脉冲形式的光镊。这是有史以来第一次发现使用高强度脉冲以暗孤子的形式来执行被称为“动态光镊”的动态光捕获探针。所生成的光镊的优点是可以将捕获的原子/分子传输到光器件和通信网络中,可称为动态光镊传输,可用于许多前沿应用。所产生的多光镊具有高容量,可用于多光镊传输。介绍了光子、原子、分子、DNA、电子和离子捕获在原子工具、微型同步加速器、分子网络、自下而上的原子/分子组装、臭氧修复等方面形成前沿研究的各种应用。描述了光镊产生的实验细节和模型及其相关特性。文中还分析和讨论了光镊产生暗孤子的有趣模拟结果。
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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