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Autores principales: Zhang, Tommy, Werner, Nicole, Banerjee, Ashis G.
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2404.17045
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author Zhang, Tommy
Werner, Nicole
Banerjee, Ashis G.
author_facet Zhang, Tommy
Werner, Nicole
Banerjee, Ashis G.
contents Holographic Optical Tweezers (HOT) are powerful tools that can manipulate micro and nano-scale objects with high accuracy and precision. They are most commonly used for biological applications, such as cellular studies, and more recently, micro-structure assemblies. Automation has been of significant interest in the HOT field, since human-run experiments are time-consuming and require skilled operator(s). Automated HOTs, however, commonly use point traps, which focus high intensity laser light at specific spots in fluid media to attract and move micro-objects. In this paper, we develop a novel automated system of tweezing multiple micro-objects more efficiently using multiplexed optical traps. Multiplexed traps enable the simultaneous trapping of multiple beads in various alternate multiplexing formations, such as annular rings and line patterns. Our automated system is realized by augmenting the capabilities of a commercially available HOT with real-time bead detection and tracking, and wavefront-based path planning. We demonstrate the usefulness of the system by assembling two different composite micro-structures, comprising 5 $μm$ polystyrene beads, using both annular and line shaped traps in obstacle-rich environments.
format Preprint
id arxiv_https___arxiv_org_abs_2404_17045
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Toward Automated Formation of Composite Micro-Structures Using Holographic Optical Tweezers
Zhang, Tommy
Werner, Nicole
Banerjee, Ashis G.
Systems and Control
Robotics
Holographic Optical Tweezers (HOT) are powerful tools that can manipulate micro and nano-scale objects with high accuracy and precision. They are most commonly used for biological applications, such as cellular studies, and more recently, micro-structure assemblies. Automation has been of significant interest in the HOT field, since human-run experiments are time-consuming and require skilled operator(s). Automated HOTs, however, commonly use point traps, which focus high intensity laser light at specific spots in fluid media to attract and move micro-objects. In this paper, we develop a novel automated system of tweezing multiple micro-objects more efficiently using multiplexed optical traps. Multiplexed traps enable the simultaneous trapping of multiple beads in various alternate multiplexing formations, such as annular rings and line patterns. Our automated system is realized by augmenting the capabilities of a commercially available HOT with real-time bead detection and tracking, and wavefront-based path planning. We demonstrate the usefulness of the system by assembling two different composite micro-structures, comprising 5 $μm$ polystyrene beads, using both annular and line shaped traps in obstacle-rich environments.
title Toward Automated Formation of Composite Micro-Structures Using Holographic Optical Tweezers
topic Systems and Control
Robotics
url https://arxiv.org/abs/2404.17045