Controllable circular Airy beams via dynamic linear potential

Zhong, Hua; Zhang, Yiqi; Belić, Milivoj R.; Wen, Feng; Zhang, Zhaoyang

doi:10.1364/oe.24.007495

Cited by 63 publications

(21 citation statements)

References 42 publications

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“…It has been shown that the propagation trajectory as well as the positions of autofocusing points of the AAF beams can be controlled by potentials [41]. In our investigation [80], we theoretically analyzed the propagation and autofocusing effect of the AAF beams in a dynamic linear potential. We found that the linear potential may weaken (even eliminate) or strengthen the For the case with d(z) = 13 − 12z, from the corresponding trajectory x p = r 0 − z 3 + 3z 2 , we know that the beam will undergo autofocusing during propagation, so the process should be described by Equation (43).…”

Section: Dynamic Linear Potential Guidancementioning

confidence: 99%

Guided Self-Accelerating Airy Beams—A Mini-Review

et al. 2017

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Owing to their nondiffracting, self-accelerating, and self-healing properties, Airy beams of different nature have become a subject of immense interest in the past decade. Their interesting properties have opened doors to many diverse applications. Consequently, the questions of how to properly design the spatial manipulation of Airy beams or how to implement them in different setups have become important and timely in the development of various optical devices. Here, based on our previous work, we present a short review on the spatial control of Airy beams, including the interactions of Airy beams in nonlinear media, beam propagation in harmonic potential, and the dynamics of abruptly autofocusing Airy beams in the presence of a dynamic linear potential. We demonstrate that, under the guidance of nonlinearity and an external potential, the trajectory, acceleration, structure, and even the basic properties of Airy beams can be adjusted to suit specific needs. We describe other fascinating phenomena observed with Airy beams, such as self-Fourier transformation, periodic inversion of Airy beams, and the appearance of spatial solitons in the presence of nonlinearity. These results have promoted the development of Airy beams, and have been utilized in various applications, including particle manipulation, self-trapping, and electronic matter waves.

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Section: Dynamic Linear Potential Guidancementioning

confidence: 99%

Guided Self-Accelerating Airy Beams—A Mini-Review

et al. 2017

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“…It has been shown that the propagation trajectory as well as the positions of autofocusing points of the AAF beams can be controlled by potentials [36]. In our investigation [75], we theoretically analyzed the propagation and autofocusing effect of the AAF beams in a dynamic linear potential. We found that the linear potential may weaken (even eliminate) or strengthen the autofocusing effect of the AAF beams, depending on the form of the linear potential.…”

Section: Dynamic Linear Potential Guidancementioning

confidence: 99%

Guided Self-Accelerating Airy Beams—A Mini-Review

Zhang¹,

Zhong²,

Belić³

et al. 2017

Preprint

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Owing to the nondiffracting, self-accelerating, and self-healing properties, Airy beams of different nature have become a subject of immense interest in the past decade. Their interesting properties have opened doors to many diverse applications. Consequently, the questions of how to properly design spatial manipulation of Airy beams or how to implement them in different setups have become important and timely in the development of various optical devices. Here, based on our previous work, we present a short review on the spatial control of Airy beams, including the interactions of Airy beams in nonlinear media, beam propagation in harmonic potential, and the dynamics of abruptly autofocusing Airy beams in the presence of a dynamic linear potential. We demonstrate that under the guidance of nonlinearity and external potential, the trajectory, acceleration, structure, and even the basic properties of Airy beams can be adjusted to suit specific needs. We describe other fascinating phenomena observed with Airy beams, such as self-Fourier transformation, periodic inversion of Airy beams, and the appearance of spatial solitons in the presence of nonlinearity. These results have promoted the development of Airy beams, and have been utilized in various applications, including particle manipulation, self-trapping, and electronic matter waves.

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“…Among multitudinous research results that are about manipulation of the Airy beam behavior, external potentials feature prominently, such as the parabolic potential, [ 25–29 ] linear potential, [ 30 ] and dynamic potentials in general. [ 31,32 ]…”

Section: Introductionmentioning

confidence: 99%

Manipulation of Airy Beams in Dynamic Parabolic Potentials

et al. 2020

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The propagation of finite energy Airy beams in dynamic parabolic potentials, including uniformly moving, accelerating, and oscillating potentials, is investigated. The propagation trajectories of Airy beams are strongly affected by the dynamic potentials, but the periodic inversion of the beam remains invariant. The results may broaden the potential applications of Airy beams, and also enlighten ideas on Airy beam manipulation in nonlinear regimes.

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Controllable circular Airy beams via dynamic linear potential

Cited by 63 publications

References 42 publications

Guided Self-Accelerating Airy Beams—A Mini-Review

Guided Self-Accelerating Airy Beams—A Mini-Review

Guided Self-Accelerating Airy Beams—A Mini-Review

Manipulation of Airy Beams in Dynamic Parabolic Potentials

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Controllable circular Airy beams via dynamic linear potential

Cited by 63 publications

References 42 publications

Guided Self-Accelerating Airy Beams—A Mini-Review

Guided Self-Accelerating Airy Beams—A Mini-Review

Guided Self-Accelerating Airy Beams&mdash;A Mini-Review

Manipulation of Airy Beams in Dynamic Parabolic Potentials

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Guided Self-Accelerating Airy Beams—A Mini-Review