2021
DOI: 10.1016/j.jqsrt.2021.107569
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Rayleigh limit of generalized Lorenz-Mie theory for on-axis beams and its relationship with the dipole theory of forces. Part I: Non dark axisymmetric beams of the first kind, with the example of Gaussian beams

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Cited by 16 publications
(1 citation statement)
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“…It is shown that laser beams with Gaussian-like intensity profile should be used to trap particles with refractive index bigger than that of the ambient, while laser beams with a hollow-like intensity profile are applicable to trap particles with refractive index smaller than the ambient. In addition, it is noted that some other beams such as Hermite-Gaussian beam [21,22], on-axis circularly symmetric Bessel beam [23], Laguerre-Gaussian beam [24], radially polarized beam [25,26], vortex beam [27][28][29], and circular Airy beams [30] also have been explored. These beams have great application prospects in free space information transmission and optical communication [31][32][33], optical imaging [34] and optical manipulation [35][36][37].…”
Section: Introductionmentioning
confidence: 99%
“…It is shown that laser beams with Gaussian-like intensity profile should be used to trap particles with refractive index bigger than that of the ambient, while laser beams with a hollow-like intensity profile are applicable to trap particles with refractive index smaller than the ambient. In addition, it is noted that some other beams such as Hermite-Gaussian beam [21,22], on-axis circularly symmetric Bessel beam [23], Laguerre-Gaussian beam [24], radially polarized beam [25,26], vortex beam [27][28][29], and circular Airy beams [30] also have been explored. These beams have great application prospects in free space information transmission and optical communication [31][32][33], optical imaging [34] and optical manipulation [35][36][37].…”
Section: Introductionmentioning
confidence: 99%