On-chip three-dimensional high-Q microcavities fabricated by femtosecond laser direct writing

Jintian Lin; Shangjie Yu; Yaoguang Ma; Wei Fang; Fei He; Lingling Qiao; Limin Tong; Ya Cheng; Zhizhan Xu

doi:10.1364/OE.20.010212

On-chip three-dimensional high-Q microcavities fabricated by femtosecond laser direct writing

Jintian Lin^*
, Shangjie Yu
, Yaoguang Ma
, Wei Fang
, Fei He
, Lingling Qiao
, Limin Tong
, Ya Cheng
, Zhizhan Xu

^*此作品的通讯作者

CAS - Shanghai Institute of Optics and Fine Mechanics
Graduate School of Chinese Academics of Science
Zhejiang University

科研成果: 期刊稿件 › 文章 › 同行评审

76 引用（Scopus）

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We report on the fabrication of three-dimensional (3D) high-Q whispering gallery microcavities on a fused silica chip by femtosecond laser microfabriction, enabled by the 3D nature of femtosecond laser direct writing. The processing mainly consists of formation of freestanding microdisks by femtosecond laser direct writing and subsequent wet chemical zetching. CO ₂ laser annealing is followed to smooth the microcavity surface. Microcavities with arbitrary tilting angle, lateral and vertical positioning are demonstrated, and the quality (Q)-factor of a typical microcavity is measured to be up to 1.07 × 10⁶, which is currently limited by the low spatial resolution of the motion stage used during the laser patterning and can be improved with motion stages of higher resolutions.

源语言	英语
页（从-至）	10212-10217
页数	6
期刊	Optics Express
卷	20
期	9
DOI	https://doi.org/10.1364/OE.20.010212
出版状态	已出版 - 23 4月 2012
已对外发布	是

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abstract = "We report on the fabrication of three-dimensional (3D) high-Q whispering gallery microcavities on a fused silica chip by femtosecond laser microfabriction, enabled by the 3D nature of femtosecond laser direct writing. The processing mainly consists of formation of freestanding microdisks by femtosecond laser direct writing and subsequent wet chemical zetching. CO 2 laser annealing is followed to smooth the microcavity surface. Microcavities with arbitrary tilting angle, lateral and vertical positioning are demonstrated, and the quality (Q)-factor of a typical microcavity is measured to be up to 1.07 × 106, which is currently limited by the low spatial resolution of the motion stage used during the laser patterning and can be improved with motion stages of higher resolutions.",

author = "Jintian Lin and Shangjie Yu and Yaoguang Ma and Wei Fang and Fei He and Lingling Qiao and Limin Tong and Ya Cheng and Zhizhan Xu",

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AU - Lin, Jintian

AU - Yu, Shangjie

AU - Ma, Yaoguang

AU - Fang, Wei

AU - He, Fei

AU - Qiao, Lingling

AU - Tong, Limin

AU - Cheng, Ya

AU - Xu, Zhizhan

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N2 - We report on the fabrication of three-dimensional (3D) high-Q whispering gallery microcavities on a fused silica chip by femtosecond laser microfabriction, enabled by the 3D nature of femtosecond laser direct writing. The processing mainly consists of formation of freestanding microdisks by femtosecond laser direct writing and subsequent wet chemical zetching. CO 2 laser annealing is followed to smooth the microcavity surface. Microcavities with arbitrary tilting angle, lateral and vertical positioning are demonstrated, and the quality (Q)-factor of a typical microcavity is measured to be up to 1.07 × 106, which is currently limited by the low spatial resolution of the motion stage used during the laser patterning and can be improved with motion stages of higher resolutions.

AB - We report on the fabrication of three-dimensional (3D) high-Q whispering gallery microcavities on a fused silica chip by femtosecond laser microfabriction, enabled by the 3D nature of femtosecond laser direct writing. The processing mainly consists of formation of freestanding microdisks by femtosecond laser direct writing and subsequent wet chemical zetching. CO 2 laser annealing is followed to smooth the microcavity surface. Microcavities with arbitrary tilting angle, lateral and vertical positioning are demonstrated, and the quality (Q)-factor of a typical microcavity is measured to be up to 1.07 × 106, which is currently limited by the low spatial resolution of the motion stage used during the laser patterning and can be improved with motion stages of higher resolutions.

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DO - 10.1364/OE.20.010212

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On-chip three-dimensional high-Q microcavities fabricated by femtosecond laser direct writing

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