光斑形状对BBO 晶体四倍频效率的影响

Shihan Meng; Tianyuan Zang; Jianliang Jiang; Hengli Zhang

光斑形状对BBO 晶体四倍频效率的影响

Translated title of the contribution: Effect of spot shape on the quadruple efficiency of BBO crystal

Shihan Meng, Tianyuan Zang, Jianliang Jiang, Hengli Zhang^*

^*Corresponding author for this work

Beijing University of Technology

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

Abstract

The BBO crystal is a non-linear frequency conversion crystal that is widely used in optical fields such as laser frequency doubling, frequency mixing and optical parametric oscillation. However, due to the large departure angle of the crystal during the quadrupling process, the resulting frequency doubled light is gradually separated from the fundamental frequency light, which reduces the quadrupling efficiency. The effect of the incident spot shape on the quadrupling efficiency of the BBO crystal is simulated for both circular and rectangular shapes during the 532'^^266 nm frequency doubling process. The results show that the use of a rectangular spot incident on the surface of the BBO crystal can extend the effective doubling aperture length, reduce the effect of the walk-off effect on the doubling light and significantly improve the quadrupling efficiency.

Translated title of the contribution	Effect of spot shape on the quadruple efficiency of BBO crystal
Original language	Chinese (Traditional)
Pages (from-to)	305-308
Number of pages	4
Journal	Guangxue Jishu/Optical Technique
Volume	50
Issue number	3
Publication status	Published - May 2024
Externally published	Yes

Cite this

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title = "光斑形状对BBO 晶体四倍频效率的影响",

abstract = "The BBO crystal is a non-linear frequency conversion crystal that is widely used in optical fields such as laser frequency doubling, frequency mixing and optical parametric oscillation. However, due to the large departure angle of the crystal during the quadrupling process, the resulting frequency doubled light is gradually separated from the fundamental frequency light, which reduces the quadrupling efficiency. The effect of the incident spot shape on the quadrupling efficiency of the BBO crystal is simulated for both circular and rectangular shapes during the 532'^^266 nm frequency doubling process. The results show that the use of a rectangular spot incident on the surface of the BBO crystal can extend the effective doubling aperture length, reduce the effect of the walk-off effect on the doubling light and significantly improve the quadrupling efficiency.",

keywords = "FHG, non-linear optics, rectangular spot, ultraviolet laser, walk-off effect",

author = "Shihan Meng and Tianyuan Zang and Jianliang Jiang and Hengli Zhang",

year = "2024",

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language = "繁体中文",

volume = "50",

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journal = "Guangxue Jishu/Optical Technique",

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number = "3",

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T1 - 光斑形状对BBO 晶体四倍频效率的影响

AU - Meng, Shihan

AU - Zang, Tianyuan

AU - Jiang, Jianliang

AU - Zhang, Hengli

PY - 2024/5

Y1 - 2024/5

N2 - The BBO crystal is a non-linear frequency conversion crystal that is widely used in optical fields such as laser frequency doubling, frequency mixing and optical parametric oscillation. However, due to the large departure angle of the crystal during the quadrupling process, the resulting frequency doubled light is gradually separated from the fundamental frequency light, which reduces the quadrupling efficiency. The effect of the incident spot shape on the quadrupling efficiency of the BBO crystal is simulated for both circular and rectangular shapes during the 532'^^266 nm frequency doubling process. The results show that the use of a rectangular spot incident on the surface of the BBO crystal can extend the effective doubling aperture length, reduce the effect of the walk-off effect on the doubling light and significantly improve the quadrupling efficiency.

AB - The BBO crystal is a non-linear frequency conversion crystal that is widely used in optical fields such as laser frequency doubling, frequency mixing and optical parametric oscillation. However, due to the large departure angle of the crystal during the quadrupling process, the resulting frequency doubled light is gradually separated from the fundamental frequency light, which reduces the quadrupling efficiency. The effect of the incident spot shape on the quadrupling efficiency of the BBO crystal is simulated for both circular and rectangular shapes during the 532'^^266 nm frequency doubling process. The results show that the use of a rectangular spot incident on the surface of the BBO crystal can extend the effective doubling aperture length, reduce the effect of the walk-off effect on the doubling light and significantly improve the quadrupling efficiency.

KW - FHG

KW - non-linear optics

KW - rectangular spot

KW - ultraviolet laser

KW - walk-off effect

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IS - 3

ER -

光斑形状对BBO 晶体四倍频效率的影响

Abstract

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