Review on vortex beams with low spatial coherence

Liu, Xianlong; Zeng, Jun; Cai, Yangjian

doi:10.1080/23746149.2019.1626766

Cited by 36 publications

(26 citation statements)

References 161 publications

(218 reference statements)

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“…Due to the interplay of coherence and polarization, the modulation in DOP on changing the correlation in fluctuating fields is expected in a standard Gaussian, Laguerre-Gaussian, Hermite-Gaussian, Bessel-like beams, etc. [4,5,[8][9][10]. In fact, beam-shaping by controlling field correlation between two transverse points (spatial coherence) in partially coherent vortex beams has been established [8].…”

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confidence: 99%

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Coherence-induced polarization effects in vector vortex beams

et al. 2020

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We demonstrate theoretically and experimentally coherence-induced polarization changes in generic and higher-order vector vortex beams with polarization singularity. The prominent depolarization on decreasing transverse correlation-width in focused partially coherent vector vortex beam provides a means to shape the intensity profile and the degree of polarization (DOP) while preserving the polarization distribution. The intensity variation and DOP-dip are found to be dependent on the polarization singularity index of the beam. Our results may provide an additional degree of freedom in the myriad of applications presently projected with various types of vector vortex beams.

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confidence: 99%

“…[4,5,[8][9][10]. In fact, beam-shaping by controlling field correlation between two transverse points (spatial coherence) in partially coherent vortex beams has been established [8]. The fluctuating fields also manifest the change in the state of polarization (SOP) [4].…”

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confidence: 99%

Coherence-induced polarization effects in vector vortex beams

et al. 2020

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“…Important motivation of the correlation-optics approaches lies in the fact that the degree of coherence supplies an additional channel for the control and regulation of the main structural properties of propagating light fields. In particular, the beams with incomplete coherence demonstrate such unique properties as self-focusing, self-shifting, self-splitting and selfreconstruction during the free propagation [40,[88][89][90]. Especially interesting and rich of details patterns are available for beams with "non-conventional" correlation functions (NCCF) when the cross-spectral density differs from the "conventional" Gaussian form…”

Section: Correlation Functions and Propagation Properties Of Partiall...mentioning

confidence: 99%

“…Such beams can be used to reduce noise when taking a photograph and to implement classical phantom interference. Additionally, partially cohernt source beams contribute to formation of a desirable target intensity distribution, including flat-top or multi-lobe structures [40,88,89]. By controlling the spatial coherence of the input beam, one can control the symmetry of the target intensity distribution and, accordingly, of the cross-spectral density distributions [88,91].…”

Section: Correlation Functions and Propagation Properties Of Partiall...mentioning

confidence: 99%

Correlation Optics, Coherence and Optical Singularities: Basic Concepts and Practical Applications

et al. 2022

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The main idea of this review is to trace the interrelations and inter-transitions between the basic concepts and approaches of the correlation optics (including the light coherence) and the singular optics dealing with networks of “exceptional” points of light fields. The principles and examples are described of formation of light fields with required structures (amplitude, phase and polarization distributions, spectral properties as well as the internal energy flows and energy gradients responsible for optical forces) via superpositions of model optical fields of simple standard configurations and under controllable correlation conditions. The theoretical and experimental results, obtained by the authors and other researchers, demonstrate possibilities of the general approach to the complex fields formation with spatial and polarization inhomogeneities. A special topic, considered in more detail, is the interaction of structured optical fields with the media containing suspended micro- and nanoparticles, their inhomogeneous heating by the laser radiation and the accompanying self-diffraction and self-focusing phenomena. Possible light-induced phase transitions and controllable generation of the gas-vapor microbubbles in the medium are discussed. Specific optical singularities in polychromatic light fields are analyzed in connection to the field coherence. Some experimental solutions for revealing the fine structure of optical fields by means of the interference schemes are presented. Practical applications for the micromanipulation techniques, optical diagnostics of remote and random objects, optical treatment and laboratory practice in biology and medicine are described and discussed.

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“…In contrast, polarization can describe the information since the polarization state of photons could preserve better after scattering. Besides amplitude, phase, spatial distribution [2,3], polarization is another basic characteristic of electromagnetic wave, which can be utilized to transport information. When light interacts with objects, the polarization state of light will change accordingly, carrying the information of objects.…”

Section: Introductionmentioning

confidence: 99%

Analyzing Polarization Transmission Characteristics in Foggy Environments Based on the Indices of Polarimetric Purity

Wang

et al. 2020

IEEE Access

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Review on vortex beams with low spatial coherence

Cited by 36 publications

References 161 publications

Coherence-induced polarization effects in vector vortex beams

Coherence-induced polarization effects in vector vortex beams

Correlation Optics, Coherence and Optical Singularities: Basic Concepts and Practical Applications

Analyzing Polarization Transmission Characteristics in Foggy Environments Based on the Indices of Polarimetric Purity

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