Phase-Matched Second-Harmonic Generation in an On-Chip L iNbO3 Microresonator

Jintian Lin; Yingxin Xu; Jielei Ni; Min Wang; Zhiwei Fang; Lingling Qiao; Wei Fang; Ya Cheng

doi:10.1103/PhysRevApplied.6.014002

Phase-Matched Second-Harmonic Generation in an On-Chip L iNbO3 Microresonator

Jintian Lin
, Yingxin Xu
, Jielei Ni
, Min Wang
, Zhiwei Fang
, Lingling Qiao
, Wei Fang
, Ya Cheng

CAS - Shanghai Institute of Optics and Fine Mechanics
Zhejiang University
The University of Hong Kong
University of Chinese Academy of Sciences
ShanghaiTech University
East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

113 引用（Scopus）

摘要

The realization of an efficient nonlinear parametric process in microresonators is a challenging issue largely because of an inherent difficulty in simultaneously ensuring the phase-matching condition and a coherent multiple-resonance condition for all the waves participating in the nonlinear conversion process. Here, we demonstrate highly efficient second-harmonic generation in an on-chip LiNbO3 microresonator fabricated by femtosecond-laser direct writing. We overcome the above difficulty by selectively exciting high-order modes in the fabricated thin-disk microresonator. Thanks to the low optical absorption and high nonlinear optical coefficient of LiNbO3 crystal, we achieve a normalized conversion efficiency of 1.106×10-3/mW in the on-chip LiNbO3 microdisk with a diameter of approximately 102 μm.

源语言	英语
文章编号	014002
期刊	Physical Review Applied
卷	6
期	1
DOI	https://doi.org/10.1103/PhysRevApplied.6.014002
出版状态	已出版 - 1 7月 2016
已对外发布	是

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abstract = "The realization of an efficient nonlinear parametric process in microresonators is a challenging issue largely because of an inherent difficulty in simultaneously ensuring the phase-matching condition and a coherent multiple-resonance condition for all the waves participating in the nonlinear conversion process. Here, we demonstrate highly efficient second-harmonic generation in an on-chip LiNbO3 microresonator fabricated by femtosecond-laser direct writing. We overcome the above difficulty by selectively exciting high-order modes in the fabricated thin-disk microresonator. Thanks to the low optical absorption and high nonlinear optical coefficient of LiNbO3 crystal, we achieve a normalized conversion efficiency of 1.106×10-3/mW in the on-chip LiNbO3 microdisk with a diameter of approximately 102 μm.",

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AU - Lin, Jintian

AU - Xu, Yingxin

AU - Ni, Jielei

AU - Wang, Min

AU - Fang, Zhiwei

AU - Qiao, Lingling

AU - Fang, Wei

AU - Cheng, Ya

PY - 2016/7/1

Y1 - 2016/7/1

N2 - The realization of an efficient nonlinear parametric process in microresonators is a challenging issue largely because of an inherent difficulty in simultaneously ensuring the phase-matching condition and a coherent multiple-resonance condition for all the waves participating in the nonlinear conversion process. Here, we demonstrate highly efficient second-harmonic generation in an on-chip LiNbO3 microresonator fabricated by femtosecond-laser direct writing. We overcome the above difficulty by selectively exciting high-order modes in the fabricated thin-disk microresonator. Thanks to the low optical absorption and high nonlinear optical coefficient of LiNbO3 crystal, we achieve a normalized conversion efficiency of 1.106×10-3/mW in the on-chip LiNbO3 microdisk with a diameter of approximately 102 μm.

AB - The realization of an efficient nonlinear parametric process in microresonators is a challenging issue largely because of an inherent difficulty in simultaneously ensuring the phase-matching condition and a coherent multiple-resonance condition for all the waves participating in the nonlinear conversion process. Here, we demonstrate highly efficient second-harmonic generation in an on-chip LiNbO3 microresonator fabricated by femtosecond-laser direct writing. We overcome the above difficulty by selectively exciting high-order modes in the fabricated thin-disk microresonator. Thanks to the low optical absorption and high nonlinear optical coefficient of LiNbO3 crystal, we achieve a normalized conversion efficiency of 1.106×10-3/mW in the on-chip LiNbO3 microdisk with a diameter of approximately 102 μm.

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Phase-Matched Second-Harmonic Generation in an On-Chip L iNbO3 Microresonator

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