Optical Instruments, Volume. 47, Issue 2, 20(2025)
Advances in all-optical manipulation of micro/nano objects on dry solid interfaces
Figures & Tables(9)
Fig. 1. Two theories for manipulation micro/nano objects at dry solid interfaces by all-optical methods and their related work
Fig. 3. Related work on manipulation of micro/nano objects on micro/nano fibers based on opto-thermo-elastic wave theory
Fig. 4. Related work on manipulation of micro/nano objects on planar substrates based on opto-thermo-elastic wave theory
Fig. 6. Related work on manipulation of micro/nano objects on micro/nano fibers based on photothermal-shock theory
Fig. 7. Related work on manipulation of micro/nano objects on planar substrates based on photothermal-shock theory
Fig. 8. Related work on manipulation of micro/nano objects based on other theories
Table 1. Comparison of all-optical and conventional methods for manipulation of the motion of micro/nano objects on dry solid interfaces
View tableView in ArticleTable 1. Comparison of all-optical and conventional methods for manipulation of the motion of micro/nano objects on dry solid interfaces
操控方式 操控理论 操控基底 被操控材料 光源脉宽 平移精度/m 旋转精度 运动自由度 参考文献 传统方法 石墨烯 WS2纳米片 10−6 平移 [ 23 ]石墨烯 BN纳米片 度 旋转 [ 21 ]全光操控技术 光–热–弹性波 SiO2 微光纤 Au薄微板 ns 10−10 角分 螺旋前进 [ 29 ]ns 10−9 角秒 面内旋转 [ 33 ]Sb2Te3薄微板 ns 10−9 角分 螺旋前进 [ 32 ]SiO2 平面 VSe2薄微板 fs 10−9 自由运动 [ 35 ]Au薄微板 ns 10−10 自由运动 [ 36 ]光–热–冲击 SiO2 微光纤 Au纳米线 ns 10−10 平移 [ 26 ]Pd纳米线 ns 10−10 角分 螺旋前进 [ 37 ]SiO2 平面 Au纳米线 ns 10−9 自由运动 [ 40 ]μs 10−9 自由运动 [ 41 ]MoS2薄微片 ns 10−10 角秒 自由运动 [ 42 ]
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Liyi WU, Shuangyi LINGHU. Advances in all-optical manipulation of micro/nano objects on dry solid interfaces[J]. Optical Instruments, 2025, 47(2): 20
Paper Information
Category: SPECIAL COLUMN: LIGHT FIELD MODULATION AND MICROMANIPULATION
Received: Jan. 15, 2025
Accepted: --
Published Online: May. 30, 2025
The Author Email: Shuangyi LINGHU (sylinghu@gzu.edu.cn)
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