Optical tunnels: long-range optical trapping and manipulation in aqueous media

IF 1.6 Q3 OPTICS OSA Continuum Pub Date : 2021-09-21 DOI:10.1364/osac.436245
Laurynas Lialys, Justinas Lialys, S. Fardad
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引用次数: 2

Abstract

In this study, we demonstrate an asymmetric counter-propagating beam system with engineered optical forces allowing for long-range particle trapping and manipulation. We achieved this by breaking the symmetry of the well-known counter-propagating optical trapping beams. By doing so, we extend the range of optical forces for particle confinement and transportation to significantly larger foci separations, creating an optical tunnel. These tunnels are capable of moving matter forward and back with controllable speeds for more than a millimeter length with the ability to bring them to a full stop at any point, creating a stable 3D trap. Our trap stiffness measurements for the asymmetric trapping system demonstrate at least one order of magnitude larger values with respect to the symmetric counter-propagating beams so far reported. Our system is quite versatile as it allows for single or multi trapping with flexible positioning of any size particle ranging from tens of nanometers to tens of microns with powers as low as a few milliwatts.
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光学隧道:水介质中的长程光学捕获和操纵
在这项研究中,我们展示了一种具有工程光学力的不对称反向传播光束系统,该系统允许长程粒子捕获和操纵。我们通过打破众所周知的反向传播光学捕获光束的对称性来实现这一点。通过这样做,我们将粒子约束和传输的光学力范围扩展到明显更大的焦点分离,从而创建了一个光学隧道。这些隧道能够以可控的速度将物质前后移动超过一毫米长,并能够在任何时候使其完全停止,从而形成稳定的3D陷阱。我们对不对称捕获系统的捕获刚度测量表明,相对于迄今为止报道的对称反向传播光束,至少有一个数量级的值更大。我们的系统非常通用,因为它允许以低至几毫瓦的功率灵活定位从几十纳米到几十微米的任何尺寸的颗粒,进行单次或多次捕获。
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OSA Continuum
OSA Continuum OPTICS-
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