Method for generating Bezier-like light beam through optical fiber end face growth microcone

A Bessel beam and fiber end face technology, applied in optics, optical components, instruments, etc., can solve the problems of low height, surface roughness, time-consuming chemical process, etc., and achieve high quality, wide working wavelength range, and low cost effect

Active Publication Date: 2019-04-26
FUDAN UNIV
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Problems solved by technology

The first is the selective chemical etching of optical fibers, which can create tapered lenses aligned with the fiber core and optimize the taper angle, but the required chemical process is time-consuming and has surface roughness issues
The second method is to use a focused ion beam (FIB), whereby the fiber core end face is conically shaped, however, FIB systems are expensive and produce Bessel-like beams inefficiently compared to other methods
The most convincing way at present is to use long-period gratings to excite the LP 0,m mode, it can produce a good Bessel-like beam, but the device can only work in a relatively narrow wavelength range

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  • Method for generating Bezier-like light beam through optical fiber end face growth microcone
  • Method for generating Bezier-like light beam through optical fiber end face growth microcone
  • Method for generating Bezier-like light beam through optical fiber end face growth microcone

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Embodiment Construction

[0023] In order to express the purpose and advantages of the present invention more clearly, the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0024] The technology for generating Bessel-like beams by polymer microcones proposed in the present invention is specifically to directly generate high-efficiency Bessel-like beams by growing photopolymer microcones on the end faces of optical fibers. A green laser is used to selectively solidify the liquid formulation on the fiber end face to form photopolymer microcones, and the length and shape of the microcones are precisely optimized for efficient Bessel-like beam generation. The length of the microcone is controlled by the choice of droplet height, and the shape of the microcone is controlled by photopolymerization parameters such as green laser power, laser exposure time and oxygen diffusion concentration. The working bandwidth of this microcone covers the entire vis...

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Abstract

The invention belongs to the technical field of light beam conversion, in particular to a method for generating a bezier-like light beam through an optical fiber end face growth microcone. The methodcomprises the following steps of: depositing a photopolymer liquid reagent on the end face of a single-mode optical fiber, coupling green laser into the single-mode optical fiber through a lens, and reacting with the photopolymer liquid reagent deposited on the end face of the single-mode optical fiber to form a polymer microcone; wherein the light beam is converted into a bezier-like light beam after passing through the polymer microcone formed by the end face of the optical fiber. The shape of the microcone is controlled by light polymerization parameters such as green laser power, laser exposure time and oxygen diffusion concentration. The working bandwidth of the microcone covers the whole visible light region and even the near infrared band, and can have more than 30 concentric ringsat most, and the generated Bezier-like beam has self-recovery property. The method has the advantages of high efficiency, low cost and convenience, and can be widely applied to the fields of particlecontrol, optical imaging, nonlinear optics, photoetching, micro-manufacturing and the like.

Description

technical field [0001] The invention belongs to the technical field of beam conversion, and in particular relates to a method for generating Bessel-like beams. Background technique [0002] The concept of a non-diffracting beam was proposed by Durnin in 1987, which is actually a zero-order Bessel beam, and Durnin pointed out that on any cross-section perpendicular to the propagation direction of the Bessel beam, the light intensity distribution of the Bessel beam Both have the form of zero-order Bessel functions of the first kind. The intensity distribution of the ideal Bessel beam cross-section appears as a central bright spot and a series of concentric rings, the intensity decreases from the inside to the outside, and the light intensity distribution does not change during the propagation process. Although the practically achievable Bessel-like beam has a limited non-diffraction-free propagation range, it also has self-recovery properties when encountering opaque obstacle...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B27/09
CPCG02B27/0927G02B27/0994
Inventor 肖力敏谭静宇于若玮
Owner FUDAN UNIV
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