High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators

Zheng Gong; Alexander Bruch; Mohan Shen; Xiang Guo; Hojoong Jung; Linran Fan; Xianwen Liu; Liang Zhang; Junxi Wang; Jinmin Li; Jianchang Yan; Hong X. Tang

doi:10.1364/OL.43.004366

High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators

Zheng Gong, Alexander Bruch, Mohan Shen, Xiang Guo, Hojoong Jung, Linran Fan, Xianwen Liu, Liang Zhang, Junxi Wang, Jinmin Li, Jianchang Yan, Hong X. Tang^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

102 引用（Scopus）

摘要

Chip-scale mode-locked dissipative Kerr solitons have been realized on various materials platforms, making it possible to achieve a miniature, highly coherent frequency comb source with high repetition rates. Aluminum nitride (AlN), an appealing nonlinear optical material having both Kerr (χ³), and Pockels (χ²) effects, has immerse potential for comb self-referencing without the need for external harmonic generators. However, cavity soliton states have not yet been achieved in AlN microresonators. Here, we demonstrate mode-locked Kerr cavity soliton generation in a crystalline AlN microring resonator. By utilizing ultrafast tuning of the pump frequency through single-sideband modulation, in combination with an optimized wavelength scan and pump power-ramp patterns, we can deterministically elongate a ∼400 ns short-lived soliton to a time span as long as we wish to hold it.

源语言	英语
页（从-至）	4366-4369
页数	4
期刊	Optics Letters
卷	43
期	18
DOI	https://doi.org/10.1364/OL.43.004366
出版状态	已出版 - 15 9月 2018
已对外发布	是

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title = "High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators",

abstract = "Chip-scale mode-locked dissipative Kerr solitons have been realized on various materials platforms, making it possible to achieve a miniature, highly coherent frequency comb source with high repetition rates. Aluminum nitride (AlN), an appealing nonlinear optical material having both Kerr (χ3), and Pockels (χ2) effects, has immerse potential for comb self-referencing without the need for external harmonic generators. However, cavity soliton states have not yet been achieved in AlN microresonators. Here, we demonstrate mode-locked Kerr cavity soliton generation in a crystalline AlN microring resonator. By utilizing ultrafast tuning of the pump frequency through single-sideband modulation, in combination with an optimized wavelength scan and pump power-ramp patterns, we can deterministically elongate a ∼400 ns short-lived soliton to a time span as long as we wish to hold it.",

author = "Zheng Gong and Alexander Bruch and Mohan Shen and Xiang Guo and Hojoong Jung and Linran Fan and Xianwen Liu and Liang Zhang and Junxi Wang and Jinmin Li and Jianchang Yan and Tang, {Hong X.}",

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T1 - High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators

AU - Gong, Zheng

AU - Bruch, Alexander

AU - Shen, Mohan

AU - Guo, Xiang

AU - Jung, Hojoong

AU - Fan, Linran

AU - Liu, Xianwen

AU - Zhang, Liang

AU - Wang, Junxi

AU - Li, Jinmin

AU - Yan, Jianchang

AU - Tang, Hong X.

PY - 2018/9/15

Y1 - 2018/9/15

N2 - Chip-scale mode-locked dissipative Kerr solitons have been realized on various materials platforms, making it possible to achieve a miniature, highly coherent frequency comb source with high repetition rates. Aluminum nitride (AlN), an appealing nonlinear optical material having both Kerr (χ3), and Pockels (χ2) effects, has immerse potential for comb self-referencing without the need for external harmonic generators. However, cavity soliton states have not yet been achieved in AlN microresonators. Here, we demonstrate mode-locked Kerr cavity soliton generation in a crystalline AlN microring resonator. By utilizing ultrafast tuning of the pump frequency through single-sideband modulation, in combination with an optimized wavelength scan and pump power-ramp patterns, we can deterministically elongate a ∼400 ns short-lived soliton to a time span as long as we wish to hold it.

AB - Chip-scale mode-locked dissipative Kerr solitons have been realized on various materials platforms, making it possible to achieve a miniature, highly coherent frequency comb source with high repetition rates. Aluminum nitride (AlN), an appealing nonlinear optical material having both Kerr (χ3), and Pockels (χ2) effects, has immerse potential for comb self-referencing without the need for external harmonic generators. However, cavity soliton states have not yet been achieved in AlN microresonators. Here, we demonstrate mode-locked Kerr cavity soliton generation in a crystalline AlN microring resonator. By utilizing ultrafast tuning of the pump frequency through single-sideband modulation, in combination with an optimized wavelength scan and pump power-ramp patterns, we can deterministically elongate a ∼400 ns short-lived soliton to a time span as long as we wish to hold it.

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High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators

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