Harnessing optical forces with advanced nanophotonic structures: principles and applications

Harnessing optical forces with advanced nanophotonic structures: principles and applications

Abstract Non-contact mechanical control of light has given rise to optical manipulation, facilitating diverse light-matter interactions and enabling pioneering applications like optical tweezers. However, the practical adoption of versatile optical tweezing systems remains constrained by the complex...

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Bibliographic Details
Main Authors: Geze Gao, Tianhua Shao, Tianyue Li, Shuming Wang
Format: Article
Language:English
Published: Springer 2025-05-01
Series:Discover Nano
Subjects:
Optical manipulation
Fiber optical tweezers
Plasmonic tweezers
Metasurface tweezers
Metamotors
Biological manipulation
Online Access:https://doi.org/10.1186/s11671-025-04252-4
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Summary:Abstract Non-contact mechanical control of light has given rise to optical manipulation, facilitating diverse light-matter interactions and enabling pioneering applications like optical tweezers. However, the practical adoption of versatile optical tweezing systems remains constrained by the complexity and bulkiness of their optical setups, underscoring the urgent requirement for advancements in miniaturization and functional integration. In this paper, we present innovations in optical manipulation within the nanophotonic domain, including fiber-based and metamaterial tweezers, as well as their emerging applications in manipulating cells and artificial micro-nano robots. Furthermore, we explore interdisciplinary on-chip devices that integrate photonic crystals and optofluidics. By merging optical manipulation with the dynamism of nanophotonics and metamaterials, this work seeks to chart a transformative pathway for the future of optomechanics and beyond.
ISSN:2731-9229

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