Optically Induced Nonlinear Cubic Crystal System for 3D Quasi‐Phase Matching

Yesheng Chen; Chen Yang; Shan Liu; Sen Wang; Ningning Wang; Yongxing Liu; Yan Sheng; Ruwei Zhao; Tianxiang Xu; Wieslaw Krolikowski

doi:10.1002/adpr.202100268

Advanced Photonics Research (Apr 2022)

Optically Induced Nonlinear Cubic Crystal System for 3D Quasi‐Phase Matching

Yesheng Chen,
Chen Yang,
Shan Liu,
Sen Wang,
Ningning Wang,
Yongxing Liu,
Yan Sheng,
Ruwei Zhao,
Tianxiang Xu,
Wieslaw Krolikowski

Affiliations

Yesheng Chen: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Chen Yang: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Shan Liu: Laser Physics Center Research School of Physics Australian National University Canberra ACT 2601 Australia
Sen Wang: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Ningning Wang: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Yongxing Liu: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Yan Sheng: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Ruwei Zhao: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Tianxiang Xu: Laboratory of Infrared Materials and Devices Research Institute of Advanced Technologies Ningbo University Ningbo 315211 P. R. China
Wieslaw Krolikowski: Laser Physics Center Research School of Physics Australian National University Canberra ACT 2601 Australia

DOI: https://doi.org/10.1002/adpr.202100268
Journal volume & issue: Vol. 3, no. 4
pp. n/a – n/a

Abstract

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Quasi‐phase matching (QPM) is a technique in nonlinear optics for achieving efficient energy exchange among optical waves at different frequencies, by spatially modulating the quadratic nonlinearity (χ (2)) of the medium. To realize the full potential of QPM, 3D spatial modulation of χ (2) is required. This has become experimentally feasible recently thanks to the invention of femtosecond laser‐based nonlinearity engineering in ferroelectric crystals. Herein, the first experimental demonstration of QPM second harmonic generation (SHG) in a nonlinear cubic crystal system is presented, in which χ (2) modulations form simple cubic, body‐centered cubic, face‐centered cubic, and diamond cubic lattices, respectively. The experimental results indicate that these nonlinear cubic structures share the same primary reciprocal lattice vectors (RLVs), but possess different Fourier coefficients (in conventional cells), leading to SHG with similar angular resonances but various intensity distributions in the far field. This work contributes to a comprehensive understanding of nonlinear optical processes in 3D periodic media, and thus sheds light on the development of high‐performance QPM devices.

Published in Advanced Photonics Research

ISSN: 2699-9293 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: https://onlinelibrary.wiley.com/journal/26999293

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