Second-harmonic generation of temporally low-coherence light

Xiaohui Zhao; Lailin Ji; Dong Liu; Yanqi Gao; Daxing Rao; Yong Cui; Wei Feng; Fujian Li; Haitao Shi; Chong Shan; WeiXin Ma; Zhan Sui

doi:10.1063/5.0022307

APL Photonics (Sep 2020)

Second-harmonic generation of temporally low-coherence light

Xiaohui Zhao,
Lailin Ji,
Dong Liu,
Yanqi Gao,
Daxing Rao,
Yong Cui,
Wei Feng,
Fujian Li,
Haitao Shi,
Chong Shan,
WeiXin Ma,
Zhan Sui

Affiliations

Xiaohui Zhao: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Lailin Ji: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Dong Liu: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Yanqi Gao: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Daxing Rao: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Yong Cui: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Wei Feng: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Fujian Li: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Haitao Shi: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Chong Shan: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
WeiXin Ma: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China
Zhan Sui: Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, 1129 Chenjiashan Road, Shanghai 201800, China

DOI: https://doi.org/10.1063/5.0022307
Journal volume & issue: Vol. 5, no. 9
pp. 091301 – 091301-6

Abstract

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In this Letter, we study the second-harmonic (SH) generation of temporally low-coherence light using the statistical optics method. By introducing the statistical characteristics of low-coherence light into the nonlinear coupled wave equation, we predict the self-convolution relationship between the power spectral density of the second-harmonic and that of the fundamental wave and demonstrate it in experiments. The effects of phase matching and group velocity matching on the second-harmonic bandwidth and conversion efficiency are analyzed, which is beneficial to improve the efficiency of low-coherent SH light. Combining the statistics optics and nonlinear optics, our research provides a suitable mathematical model for the study of nonlinear frequency conversion processes of temporally low-coherence light. Due to its statistical characteristics and temporal incoherence, low-coherence SH light would have further applications in uniform illumination, quantum optics, metrology, and so on.

Published in APL Photonics

ISSN: 2378-0967 (Online)
Publisher: AIP Publishing LLC
Country of publisher: United States
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics
Website: https://aplphotonics.aip.org

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