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Neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, cut shape, preparation method and application

A technology of neodymium zinc borate and crystal materials, which is applied in the field of laser and nonlinear optics, can solve the problems of inability to apply high-power devices, low thermal conductivity of crystal materials, and inability to directly output green light, etc., and achieve easy high-quality and large-size single Crystal, high thermal conductivity, simple and mature growth process

Active Publication Date: 2021-07-20
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] In view of the current situation that there are few practical laser self-frequency doubling crystals, especially the low thermal conductivity of the current crystal materials, it cannot be used in high-power devices, and the current crystal cut cannot directly output green light. insufficient

Method used

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  • Neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, cut shape, preparation method and application
  • Neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, cut shape, preparation method and application
  • Neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, cut shape, preparation method and application

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Effect test

Embodiment 1

[0035] A kind of Nd x Bi 2-x ZnB 2 o 7 crystal, where Nd 3+ By replacing Bi 3+ For doping growth, Nd 3+ The doping concentration is 2mol%. The preparation method comprises the steps of:

[0036] (1) adopt stoichiometric ratio, carry out batching according to chemical equation:

[0037] (x / 2)Nd 2 o 3 +(1-x / 2)Bi 2 o 3 +ZnO+2H 3 BO 3 =Nd x Bi 2-x ZnB 2 o 7 +3H 2 o

[0038] The prepared raw materials are fully ground, and in order to improve the contact area and uniformity of the raw material particles, the raw materials are put into a mixing bottle for mechanical mixing. After mixing, the raw materials are pressed into compact cylindrical blocks.

[0039] Put the pressed cylindrical material into a clean corundum crucible, and place it in a muffle furnace for high-temperature sintering. The sintering temperature is 650°C, and the sintering time is more than 10 hours. After sufficient solid-state reaction, Nd x Bi 2-x ZnB 2 o 7 polycrystalline material.

...

Embodiment 2

[0047] A kind of Nd as described in embodiment 1 x Bi 2-x ZnB 2 o 7 crystal, where Nd 3+ By replacing Bi 3+ For doping growth, the difference is: Nd 3+ The doping concentration is 5mol%.

Embodiment 3

[0049] A kind of Nd as described in embodiment 1 x Bi 2-x ZnB 2 o 7 crystal, where Nd 3+ By replacing Bi 3+ For doping growth, the difference is: Nd 3+ The doping concentration is 8mol%.

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Abstract

The invention relates to a neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, a cutting type, a preparation method and an application thereof. Using the Kyropoulos method, by activating the ionic Nd 3+ Replace Bi 3+ different doping concentration Nd x Bi 2‑ x ZnB 2 o 7 crystal growth. The present invention also provides the above-mentioned Nd x Bi 2‑ x ZnB 2 o 7 The application of crystals is pumped by a semiconductor laser with a center wavelength of 808nm, using Nd x Bi 2‑x ZnB 2 o 7 The laser and nonlinear optical properties of the crystal obtain the self-frequency-doubled green light output with an output wavelength of 533nm. The laser has the advantages of compact structure, small volume, high conversion efficiency, long life, low cost, high thermal conductivity, etc., and can be used for high-power lasers.

Description

technical field [0001] The invention relates to a neodymium-doped zinc-bismuth borate self-frequency doubling crystal material, a cutting type, a preparation method and application thereof, and belongs to the technical field of laser and nonlinear optics. Background technique [0002] Functional crystalline materials are an important basis for optoelectronic devices. At present, functional crystals are developing in the direction of functionalization, compounding and integration of materials and devices. When two or more functional properties act on the same crystal, a composite functional crystal material is formed. The laser self-frequency doubling crystal is an important composite functional crystal. It uses the nonlinear optical effect of the matrix crystal to convert the stimulated emission of the activated ions into the second harmonic, so that it has the stimulated emission performance of the laser crystal at the same time. And the frequency doubling performance of ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C30B28/02C30B17/00C30B29/22H01S3/16H01S3/109
CPCC30B17/00C30B28/02C30B29/22H01S3/1095H01S3/1666
Inventor 赵显陈菲菲于法鹏姜超樊梦迪田世伟程秀凤
Owner SHANDONG UNIV
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