Optical trapping of metallic Rayleigh particle by combined beam

Radiation forces and trapping stability of metallic （i.e. gold） Rayleigh particle by combined beam are analyzed, and the combined beam is formed by superimposing two partially coherent off-axis fiat-topped beams. The dependences of radiation forces on off-axis distance parameter, correlation length...

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Published in	Optoelectronics letters Vol. 8; no. 1; pp. 76 - 80
Main Author	程科钟先琼向安平
Format	Journal Article
Language	English
Published	Heidelberg Tianjin University of Technology 2012
Subjects	Lasers Optical Devices Optics Photonics Physics Physics and Astronomy 俘获强度分布瑞利相关长度粒子半径组合梁距离参数金属 Correlation Length Radiation Force Single Beam Metallic Particle Gradient Force
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ISSN	1673-1905 1993-5013
DOI	10.1007/s11801-012-1118-z

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Abstract	Radiation forces and trapping stability of metallic （i.e. gold） Rayleigh particle by combined beam are analyzed, and the combined beam is formed by superimposing two partially coherent off-axis fiat-topped beams. The dependences of radiation forces on off-axis distance parameter, correlation length and particle radius are illustrated by numerical examples. The results show that there exist critical values d0,c and or σ0,c for the combined beam. For 0〈d ≤ d0,c or 0〈σ0 ≤ σ0,c the Gaussianlike intensity profile takes place at the geometrical focal plane, so that the transverse gradient force can act as restoring force. As the off-axis distance parameter increases or the correlation length decreases, the maximal intensity, the radiation force and trapping stiffness become smaller, while the transverse and longitudinal trapping ranges become larger. In comparison with a single beam, the combined beam is more favourable for trapping metallic Rayleigh particle owing to the stronger trapping stiffness and the larger trapping range.
AbstractList	Radiation forces and trapping stability of metallic （i.e. gold） Rayleigh particle by combined beam are analyzed, and the combined beam is formed by superimposing two partially coherent off-axis fiat-topped beams. The dependences of radiation forces on off-axis distance parameter, correlation length and particle radius are illustrated by numerical examples. The results show that there exist critical values d0,c and or σ0,c for the combined beam. For 0〈d ≤ d0,c or 0〈σ0 ≤ σ0,c the Gaussianlike intensity profile takes place at the geometrical focal plane, so that the transverse gradient force can act as restoring force. As the off-axis distance parameter increases or the correlation length decreases, the maximal intensity, the radiation force and trapping stiffness become smaller, while the transverse and longitudinal trapping ranges become larger. In comparison with a single beam, the combined beam is more favourable for trapping metallic Rayleigh particle owing to the stronger trapping stiffness and the larger trapping range. Radiation forces and trapping stability of metallic (i.e. gold) Rayleigh particle by combined beam are analyzed, and the combined beam is formed by superimposing two partially coherent off-axis flat-topped beams. The dependences of radiation forces on off-axis distance parameter, correlation length and particle radius are illustrated by numerical examples. The results show that there exist critical values d 0,c and σ 0,c for the combined beam. For 0< d ⩽ d 0,c or 0< σ 0 ⩽ σ 0,c the Gaussianlike intensity profile takes place at the geometrical focal plane, so that the transverse gradient force can act as restoring force. As the off-axis distance parameter increases or the correlation length decreases, the maximal intensity, the radiation force and trapping stiffness become smaller, while the transverse and longitudinal trapping ranges become larger. In comparison with a single beam, the combined beam is more favourable for trapping metallic Rayleigh particle owing to the stronger trapping stiffness and the larger trapping range.
Author	程科钟先琼向安平
AuthorAffiliation	College of Optoelectronic Technology, Chengdu University of Information Technology, Chengdu 610225, China
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Keywords	Correlation Length Radiation Force Single Beam Metallic Particle Gradient Force
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Notes	12-1370/TN Radiation forces and trapping stability of metallic （i.e. gold） Rayleigh particle by combined beam are analyzed, and the combined beam is formed by superimposing two partially coherent off-axis fiat-topped beams. The dependences of radiation forces on off-axis distance parameter, correlation length and particle radius are illustrated by numerical examples. The results show that there exist critical values d0,c and or σ0,c for the combined beam. For 0〈d ≤ d0,c or 0〈σ0 ≤ σ0,c the Gaussianlike intensity profile takes place at the geometrical focal plane, so that the transverse gradient force can act as restoring force. As the off-axis distance parameter increases or the correlation length decreases, the maximal intensity, the radiation force and trapping stiffness become smaller, while the transverse and longitudinal trapping ranges become larger. In comparison with a single beam, the combined beam is more favourable for trapping metallic Rayleigh particle owing to the stronger trapping stiffness and the larger trapping range.
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PublicationPlace	Heidelberg
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PublicationTitle	Optoelectronics letters
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Publisher	Tianjin University of Technology
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Snippet	Radiation forces and trapping stability of metallic （i.e. gold） Rayleigh particle by combined beam are analyzed, and the combined beam is formed by... Radiation forces and trapping stability of metallic (i.e. gold) Rayleigh particle by combined beam are analyzed, and the combined beam is formed by...
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SubjectTerms	Lasers Optical Devices Optics Photonics Physics Physics and Astronomy 俘获强度分布瑞利相关长度粒子半径组合梁距离参数金属
Title	Optical trapping of metallic Rayleigh particle by combined beam
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