Study on Optical Force Characteristics of Triangular Metal Nanoparticles

Xiaolei WANG; Guangke JIANG; Yuxin DONG; Siliang LIU; Liping GONG; Jiehui ZHAO; Zhuqing ZHU; Bing GU

doi:10.3788/gzxb20215006.0614002

Journals >Acta Photonica Sinica >Volume 50 >Issue 6 >Page 144 > Article

Acta Photonica Sinica
Vol. 50, Issue 6, 144 (2021)

Study on Optical Force Characteristics of Triangular Metal Nanoparticles

Xiaolei WANG^1、2、3, Guangke JIANG¹, Yuxin DONG¹, Siliang LIU¹, Liping GONG^4、*, Jiehui ZHAO¹, Zhuqing ZHU⁵, and Bing GU^6、7

Author Affiliations

¹Institute of Modern Optics， School of Electronic Information and Optical Engineering， Nankai University， Tianjin300350， China

²Tianjin Key Laboratory of Micro-scale Optical Information Technology Science， Tianjin300350， China

³Tianjin Key Laboratory of Photoelectric Sensors and Sensor Network Technology，Tianjin0050， China

⁴School of Mathematics， Physics and Statistics， Shanghai University of Engineering Science， Shanghai201620， China

⁵School of Computer and Electronic Information， Nanjing Normal University， Nanjing210023，China

⁶Advanced Photonics Center， Southeast University， Nanjing21009， China

⁷China Collaborative Innovation Center of Light Manipulations and Applications， Shandong Normal University， Jinan250358， China

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DOI: 10.3788/gzxb20215006.0614002 Cite this Article

Xiaolei WANG, Guangke JIANG, Yuxin DONG, Siliang LIU, Liping GONG, Jiehui ZHAO, Zhuqing ZHU, Bing GU. Study on Optical Force Characteristics of Triangular Metal Nanoparticles[J]. Acta Photonica Sinica, 2021, 50(6): 144 Copy Citation Text

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Fig. 1. Schematic diagram of the motion of triangular gold nano-particles in a circularly symmetrically distributed focused field

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Curve distribution of the lateral light force Fx in the x direction with the position of the triangular gold nano-particles with size of 50~440 nm in the focal field

Fig. 2. Curve distribution of the lateral light force F_x in the x direction with the position of the triangular gold nano-particles with size of 50~440 nm in the focal field

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Fig. 3. Curve distribution of the lateral light force F_y in the y direction with the position of the triangular gold nano-particles at different positions on the x-axis

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Fig. 4. Curve distribution of the longitudinal light force F_zin the z direction with the position of the triangular gold nano-particles at different positions on the x-axis

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Fig. 5. Curve distribution of the lateral light force F_yin the y direction with the triangular gold nano-particles whose size of 50~420 nm at different positions on the y-axis

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Fig. 6. Schematic diagram of the motion of triangular gold nano-particles in a triangular focusing field

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Fig. 7. Curve distribution of the lateral light force F_x in the x direction with the triangular gold nano-particles at different positions on the x-axis in the focal field

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Fig. 8. Curve distribution of the longitudinal light force F_z in the x direction with the triangular gold nano-particles at different positions on the x-axis in the focal field

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Fig. 9. Curve distribution of the lateral light force F_yin the y direction with the triangular gold nano-particles whose size of 100~400 nm at different positions on the y-axis in the focal field

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Fig. 10. The relationship between the lateral light force F_x of the triangular gold nano-particles and the distribution of focal field energy

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Fig. 11. Comparison of light force received by particles in a circular symmetrical focus field and a triangular focus field

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