Coherent and incoherent nonparaxial self-accelerating Weber beams

Yiqi Zhang; Junfeng Liu; Feng Wen; Changbiao Li; Zhaoyang Zhang; Yanpeng Zhang; Milivoj R. Belic

doi:10.1109/JPHOT.2016.2620809

Coherent and incoherent nonparaxial self-accelerating Weber beams

Yiqi Zhang, Junfeng Liu, Feng Wen, Changbiao Li, Zhaoyang Zhang, Yanpeng Zhang^*, Milivoj R. Belic

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

We investigate coherent and incoherent nonparaxial Weber beams both theoretically and numerically. We clarify the understanding of coherence properties of Weber beams. We show that the superposition of coherent self-accelerating Weber beams with transverse displacement cannot display the nonparaxial accelerating Talbot effect because their lobes do not accelerate in unison, which is the requirement for the appearance of the effect. The incoherent Weber beams also cannot display the accelerating Talbot effect but can exhibit nonparaxial accelerating properties, although the transverse coherence length is smaller than the beam width, based on the second-order coherence theory. Our research method applies to the nonparaxial Mathieu beams as well, and one obtains similar conclusions as for the Weber beams, although this is not discussed in the paper.

Original language	English
Article number	1602209
Journal	IEEE Photonics Journal
Volume	8
Issue number	6
DOIs	https://doi.org/10.1109/JPHOT.2016.2620809
Publication status	Published - Dec 2016
Externally published	Yes

Keywords

Talbot effect
Weber beams
incoherent beams

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10.1109/JPHOT.2016.2620809

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title = "Coherent and incoherent nonparaxial self-accelerating Weber beams",

abstract = "We investigate coherent and incoherent nonparaxial Weber beams both theoretically and numerically. We clarify the understanding of coherence properties of Weber beams. We show that the superposition of coherent self-accelerating Weber beams with transverse displacement cannot display the nonparaxial accelerating Talbot effect because their lobes do not accelerate in unison, which is the requirement for the appearance of the effect. The incoherent Weber beams also cannot display the accelerating Talbot effect but can exhibit nonparaxial accelerating properties, although the transverse coherence length is smaller than the beam width, based on the second-order coherence theory. Our research method applies to the nonparaxial Mathieu beams as well, and one obtains similar conclusions as for the Weber beams, although this is not discussed in the paper.",

keywords = "Talbot effect, Weber beams, incoherent beams",

author = "Yiqi Zhang and Junfeng Liu and Feng Wen and Changbiao Li and Zhaoyang Zhang and Yanpeng Zhang and Belic, {Milivoj R.}",

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T1 - Coherent and incoherent nonparaxial self-accelerating Weber beams

AU - Zhang, Yiqi

AU - Liu, Junfeng

AU - Wen, Feng

AU - Li, Changbiao

AU - Zhang, Zhaoyang

AU - Zhang, Yanpeng

AU - Belic, Milivoj R.

PY - 2016/12

Y1 - 2016/12

N2 - We investigate coherent and incoherent nonparaxial Weber beams both theoretically and numerically. We clarify the understanding of coherence properties of Weber beams. We show that the superposition of coherent self-accelerating Weber beams with transverse displacement cannot display the nonparaxial accelerating Talbot effect because their lobes do not accelerate in unison, which is the requirement for the appearance of the effect. The incoherent Weber beams also cannot display the accelerating Talbot effect but can exhibit nonparaxial accelerating properties, although the transverse coherence length is smaller than the beam width, based on the second-order coherence theory. Our research method applies to the nonparaxial Mathieu beams as well, and one obtains similar conclusions as for the Weber beams, although this is not discussed in the paper.

AB - We investigate coherent and incoherent nonparaxial Weber beams both theoretically and numerically. We clarify the understanding of coherence properties of Weber beams. We show that the superposition of coherent self-accelerating Weber beams with transverse displacement cannot display the nonparaxial accelerating Talbot effect because their lobes do not accelerate in unison, which is the requirement for the appearance of the effect. The incoherent Weber beams also cannot display the accelerating Talbot effect but can exhibit nonparaxial accelerating properties, although the transverse coherence length is smaller than the beam width, based on the second-order coherence theory. Our research method applies to the nonparaxial Mathieu beams as well, and one obtains similar conclusions as for the Weber beams, although this is not discussed in the paper.

KW - Talbot effect

KW - Weber beams

KW - incoherent beams

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DO - 10.1109/JPHOT.2016.2620809

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JO - IEEE Photonics Journal

JF - IEEE Photonics Journal

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Coherent and incoherent nonparaxial self-accelerating Weber beams

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Keywords

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