modeling of bessel beam generation from axicon with round tip · bessel beam at a fixed z-position...
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![Page 1: Modeling of Bessel Beam Generation from Axicon with Round Tip · Bessel Beam at a Fixed Z-Position 20 mm round-tip axicon-n = 1.50669- apex angle 𝜏 = 170°-a = 10, 30, 60 µm𝜏](https://reader033.vdocuments.mx/reader033/viewer/2022052014/602b8c531a865a355b5fa3f6/html5/thumbnails/1.jpg)
Modeling of Bessel Beam Generation from Axicon
with Round Tip
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Abstract
Bessel beams, due to their non-diffracting
property, are drawing attentions for
different applications. They are typically
generated from axicons. An ideal axicon
with infinite tip does not exist, and, in
practice, an axicon comes with a rounded
tip. In this example, we investigate the
effect of the round tip on the generated
Bessel beams, following the research
work in [O. Brzobohatý, et al., Opt. Express
16, 12688-12700 (2008)]. Particularly, we
simulate beam evolution along z and
compare the results.
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Modeling Task
input field- fundamental Gaussian
- wavelength 1064 nm
- waist radius 2140 µm
round-tip axicon- refractive index n = 1.50669
- apex angle 𝜏 = 170°
- round-tip parameter a = 10, 30, 60 µm
- modeled as a transmission function
𝜏 ?
How does the generated Bessel
beam evolve along z, especially with
respect to different round tips?
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parameters and model following
O. Brzobohatý, et al.,
Opt. Express 16, 12688-12700
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Bessel Beam at a Fixed Z-Position
20 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 10, 30, 60 µm
𝜏
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Bessel Beam Evolution Along Z (a = 10 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 10 µm
5
𝜏
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Bessel Beam Evolution Along Z (a = 10 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 10 µm
6
𝜏
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Bessel Beam Evolution Along Z (a = 30 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 30 µm
7
𝜏
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Bessel Beam Evolution Along Z (a = 30 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 30 µm
8
𝜏
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Bessel Beam Evolution Along Z (a = 60 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 60 µm
9
𝜏
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Bessel Beam Evolution Along Z (a = 60 µm)
?
100 mm
round-tip axicon- n = 1.50669
- apex angle 𝜏 = 170°
- a = 60 µm
10
𝜏
![Page 11: Modeling of Bessel Beam Generation from Axicon with Round Tip · Bessel Beam at a Fixed Z-Position 20 mm round-tip axicon-n = 1.50669- apex angle 𝜏 = 170°-a = 10, 30, 60 µm𝜏](https://reader033.vdocuments.mx/reader033/viewer/2022052014/602b8c531a865a355b5fa3f6/html5/thumbnails/11.jpg)
On-Axis Distribution and Comparison
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Fig. 2 from O. Brzobohatý, et al.,
Opt. Express 16, 12688-12700 (2008)
simulation result in VirtualLab Fusion
![Page 12: Modeling of Bessel Beam Generation from Axicon with Round Tip · Bessel Beam at a Fixed Z-Position 20 mm round-tip axicon-n = 1.50669- apex angle 𝜏 = 170°-a = 10, 30, 60 µm𝜏](https://reader033.vdocuments.mx/reader033/viewer/2022052014/602b8c531a865a355b5fa3f6/html5/thumbnails/12.jpg)
Peek into VirtualLab Fusion
12
customizable and flexible transmission definition
parameter
sweep
field visualization and analysis
![Page 13: Modeling of Bessel Beam Generation from Axicon with Round Tip · Bessel Beam at a Fixed Z-Position 20 mm round-tip axicon-n = 1.50669- apex angle 𝜏 = 170°-a = 10, 30, 60 µm𝜏](https://reader033.vdocuments.mx/reader033/viewer/2022052014/602b8c531a865a355b5fa3f6/html5/thumbnails/13.jpg)
Workflow in VirtualLab Fusion
• Set up input Gaussian field
− Basic Source Models [Tutorial Video]
• Set the position and orientation of components
− How to Work with the Programmable Function &
Example (Cylindrical Lens) [Use Case]
• Sweep the parameters and check the influence
− Usage of the Parameter Run Document [Use Case]
13
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VirtualLab Fusion Technologies
14
free space prisms,
plates, cubes, ...
lenses & freeforms
transmission functions
gratings
diffractive, Fresnel, meta
lensesHOE, CGH,
DOEmicro lens &
freeform arrays
SLM & adaptive
components
diffractive beam
splitters
diffusers
scatterer
waveguides & fibers
crystals & anisotropic
components
nonlinear components
Field
Solver
1
11
2
2
![Page 15: Modeling of Bessel Beam Generation from Axicon with Round Tip · Bessel Beam at a Fixed Z-Position 20 mm round-tip axicon-n = 1.50669- apex angle 𝜏 = 170°-a = 10, 30, 60 µm𝜏](https://reader033.vdocuments.mx/reader033/viewer/2022052014/602b8c531a865a355b5fa3f6/html5/thumbnails/15.jpg)
Document Information
www.LightTrans.com15
title Modeling of Bessel Beam Generation from Axicon with Round Tip
document code MISC.0009
version 1.2
edition VirtualLab Fusion Basic
software version 2020.1 (Build 1.202)
category Application Use Case
further reading
- Programming an Axicon Transmission Function
- Diffraction Patterns behind Different Apertures
- Focal Spots for Different Aberrations