Small core radial bundling type large effective module field area and high non-linear photon crystal optical fiber

A technology of photonic crystal fiber and mode field area, applied in nonlinear optics, bundled optical fiber, cladding fiber, etc., can solve the problems of high incident power, fiber end face damage, and low output power of supercontinuum laser source

Inactive Publication Date: 2008-11-12
TIANJIN UNIV
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Problems solved by technology

However, there are obvious disadvantages of using small-diameter photonic crystal fibers to produce supercontinuum. The effective area of ​​the core diameter is only a few square microns. When the focused high-power pump exceeds the damage threshold of the material, the fiber end face is destroyed, that is Traditional highly nonlinear photonic crystal fibers cannot withstand high incident power, resulting in generally low output power of supercontinuum laser sources
This leads to a pair of contradictions, that is, the frequency conversion efficiency is inversely proportional to the core diameter of the fiber, and a large fiber core diameter is required to withstand high incident power

Method used

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  • Small core radial bundling type large effective module field area and high non-linear photon crystal optical fiber
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  • Small core radial bundling type large effective module field area and high non-linear photon crystal optical fiber

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specific Embodiment 1

[0018] The highly nonlinear photonic crystal fiber with large effective mode field area is composed of multiple small core diameters (1-2μm) cores, each small core is surrounded by a layer of small air holes, and the entire bundle of small cores is surrounded by multiple cores. Large air holes in one layer; the fiber is suitable for various fiber materials; the position of the zero dispersion point can be adjusted by adjusting the hole center distance (Λ) and the air hole diameter (D) of the surrounding air holes to meet the needs of different waveband lasers. Specific embodiment 1: for quartz material, zero dispersion is in 800nm ​​wave band, 7 cores are integrated (see attached figure 1 ), inner cladding air hole parameters: Λ 1 = 2.0 μm, D 1 =1.6μm, outer cladding air hole parameters: Λ 2 = 4.5 μm, D 2 =3.90μm, constitute the effective mode area: 58.2μm 2 ; Specific embodiment 2: for quartz material, zero dispersion is in 1550nm wave band, 7 cores are integrated (see at...

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Abstract

The invention discloses a small-core cluster photonic crystal fiber with a large effective mode field area and high non-linearity, which pertains to the technical field of fibers. The effective mode field area of the photonic crystal fiber is composed of the bunching of a plurality of fibers with a core diameter of 1 to 2 microns; small air vent holes are arranged around each small fiber core to form a covering; the periphery of a small bunching core is the structure of a multi-layer air vent hole covering. The photonic crystal fiber has the advantages that the photonic crystal fiber retains and promotes the original feature of high non-linearity, has relatively large effective mode field area and can bear relatively large pump energy; when the photonic crystal fiber is combined with a photonic crystal fiber mode lock laser with high power, a small-sized super-continuum laser source with high power is formed.

Description

technical field [0001] The invention relates to a small core-diameter bundled type large effective mode field area and high nonlinear photonic crystal optical fiber, which belongs to the technical field of optical fibers. Background technique [0002] The supercontinuum laser source (white light laser) is a laser source with a wide spectral distribution, and the resulting spectral resolution technology has been widely used in optical communication, life science, military and other fields [1] . In 1996, the Russell group of the University of Bath successfully developed the world's first photonic crystal fiber with a periodic microstructure, thus realizing the human dream of photonic crystals at the two-dimensional level. [2] . In 1999, several laboratories and companies in the United Kingdom, the United States, and Denmark successively developed a variety of photonic crystal fibers with different structures using traditional fiber drawing technology, and began to provide a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B6/04G02B6/02G02F1/35
Inventor 柴路王清月程同蕾栗岩锋胡明列
Owner TIANJIN UNIV
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