Gouy phase induced polarization transition of focused vector vortex beams

Yi Zhang; Xuyue Guo; Lei Han; Peng Li; Sheng Liu; Huachao Cheng; Jianlin Zhao

doi:10.1364/OE.25.025725

Gouy phase induced polarization transition of focused vector vortex beams

Yi Zhang, Xuyue Guo, Lei Han, Peng Li, Sheng Liu, Huachao Cheng, Jianlin Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

We propose a common criterion for the effect of Gouy phase on the distinct polarization transition of focused vector vortex beams (VVBs). Such polarization transition is strongly dependent on the parity of the smaller modulus between VVB’s polarization order and topological charge. Significantly, the cross polarization transitions are observed at areas where the two spin components with equi-intensity are exactly overlapping and the Gouy phase difference (GPD) between them equals to (2k + 1)π, k is an integer. As a whole, the focal field shows radially variant polarization distributions resulting from the unequal intensity proportion of the two spin components. This polarization transition holds potential in modifying the patterns of periodic surface structure induced by femtosecond vector beams.

Original language	English
Pages (from-to)	25725-25733
Number of pages	9
Journal	Optics Express
Volume	25
Issue number	21
DOIs	https://doi.org/10.1364/OE.25.025725
State	Published - 16 Oct 2017

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abstract = "We propose a common criterion for the effect of Gouy phase on the distinct polarization transition of focused vector vortex beams (VVBs). Such polarization transition is strongly dependent on the parity of the smaller modulus between VVB{\textquoteright}s polarization order and topological charge. Significantly, the cross polarization transitions are observed at areas where the two spin components with equi-intensity are exactly overlapping and the Gouy phase difference (GPD) between them equals to (2k + 1)π, k is an integer. As a whole, the focal field shows radially variant polarization distributions resulting from the unequal intensity proportion of the two spin components. This polarization transition holds potential in modifying the patterns of periodic surface structure induced by femtosecond vector beams.",

author = "Yi Zhang and Xuyue Guo and Lei Han and Peng Li and Sheng Liu and Huachao Cheng and Jianlin Zhao",

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T1 - Gouy phase induced polarization transition of focused vector vortex beams

AU - Zhang, Yi

AU - Guo, Xuyue

AU - Han, Lei

AU - Li, Peng

AU - Liu, Sheng

AU - Cheng, Huachao

AU - Zhao, Jianlin

PY - 2017/10/16

Y1 - 2017/10/16

N2 - We propose a common criterion for the effect of Gouy phase on the distinct polarization transition of focused vector vortex beams (VVBs). Such polarization transition is strongly dependent on the parity of the smaller modulus between VVB’s polarization order and topological charge. Significantly, the cross polarization transitions are observed at areas where the two spin components with equi-intensity are exactly overlapping and the Gouy phase difference (GPD) between them equals to (2k + 1)π, k is an integer. As a whole, the focal field shows radially variant polarization distributions resulting from the unequal intensity proportion of the two spin components. This polarization transition holds potential in modifying the patterns of periodic surface structure induced by femtosecond vector beams.

AB - We propose a common criterion for the effect of Gouy phase on the distinct polarization transition of focused vector vortex beams (VVBs). Such polarization transition is strongly dependent on the parity of the smaller modulus between VVB’s polarization order and topological charge. Significantly, the cross polarization transitions are observed at areas where the two spin components with equi-intensity are exactly overlapping and the Gouy phase difference (GPD) between them equals to (2k + 1)π, k is an integer. As a whole, the focal field shows radially variant polarization distributions resulting from the unequal intensity proportion of the two spin components. This polarization transition holds potential in modifying the patterns of periodic surface structure induced by femtosecond vector beams.

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Gouy phase induced polarization transition of focused vector vortex beams

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