Micromachined phase-shifted array-type mirau interferometer for swept-source OCT imaging: Design, microfabrication and experimental validation

C. Gorecki; J. Lullin; S. Perrin; S. Bargiel; J. Albero; O. Gaiffe; J. Rutkowski; J. M. Cote; J. Krauter; W. Osten; W. S. Wang; M. Weimer; J. Froemel

doi:10.1364/BOE.10.001111

Micromachined phase-shifted array-type mirau interferometer for swept-source OCT imaging: Design, microfabrication and experimental validation

C. Gorecki, J. Lullin, S. Perrin, S. Bargiel, J. Albero, O. Gaiffe, J. Rutkowski, J. M. Cote, J. Krauter, W. Osten, W. S. Wang, M. Weimer, J. Froemel

研究成果: Article › 査読

3 被引用数 (Scopus)

抄録

OCT instruments permit fast and non-invasive 3D optical biopsies of biological tissues. However, they are bulky and expensive, making them only affordable at the hospital and thus, not sufficiently used as an early diagnostic tool. Significant reduction of system cost and size is achieved by implementation of MOEMS technologies. We propose an active array of 4x4 Mirau microinterferometers where the reference micro-mirrors are carried by a vertical comb-drive microactuator, enabling the implementation of the phase-shifting technique that improves the sensitivity and eliminates unwanted interferometric terms. We focus on the design of the imaging system, the microfabrication and the assembly of the Mirau microinterferometer, and the swept-source OCT imaging.

本文言語	English
論文番号	#356665
ページ（範囲）	1111-1125
ページ数	15
ジャーナル	Biomedical Optics Express
巻	10
号	3
DOI	https://doi.org/10.1364/BOE.10.001111
出版ステータス	Published - 2019 3月 1
外部発表	はい

ASJC Scopus subject areas

バイオテクノロジー
原子分子物理学および光学

文献へのアクセス

10.1364/BOE.10.001111

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引用スタイル

Gorecki, C., Lullin, J., Perrin, S., Bargiel, S., Albero, J., Gaiffe, O., Rutkowski, J., Cote, J. M., Krauter, J., Osten, W., Wang, W. S., Weimer, M., & Froemel, J. (2019). Micromachined phase-shifted array-type mirau interferometer for swept-source OCT imaging: Design, microfabrication and experimental validation. Biomedical Optics Express, 10(3), 1111-1125. [#356665]. https://doi.org/10.1364/BOE.10.001111

Gorecki, C, Lullin, J, Perrin, S, Bargiel, S, Albero, J, Gaiffe, O, Rutkowski, J, Cote, JM, Krauter, J, Osten, W, Wang, WS, Weimer, M & Froemel, J 2019, 'Micromachined phase-shifted array-type mirau interferometer for swept-source OCT imaging: Design, microfabrication and experimental validation', Biomedical Optics Express, vol. 10, no. 3, #356665, pp. 1111-1125. https://doi.org/10.1364/BOE.10.001111

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abstract = "OCT instruments permit fast and non-invasive 3D optical biopsies of biological tissues. However, they are bulky and expensive, making them only affordable at the hospital and thus, not sufficiently used as an early diagnostic tool. Significant reduction of system cost and size is achieved by implementation of MOEMS technologies. We propose an active array of 4x4 Mirau microinterferometers where the reference micro-mirrors are carried by a vertical comb-drive microactuator, enabling the implementation of the phase-shifting technique that improves the sensitivity and eliminates unwanted interferometric terms. We focus on the design of the imaging system, the microfabrication and the assembly of the Mirau microinterferometer, and the swept-source OCT imaging.",

author = "C. Gorecki and J. Lullin and S. Perrin and S. Bargiel and J. Albero and O. Gaiffe and J. Rutkowski and Cote, {J. M.} and J. Krauter and W. Osten and Wang, {W. S.} and M. Weimer and J. Froemel",

note = "Funding Information: Project VIAMOS of the European Commission (FP7, ICT program, grant no. 318542). Funding Information: Project VIAMOS of the European Commission (FP7, ICT program, grant no. 318542).This work was partially supported by the ANR program (project DOCT-VCSEL ANR-15-CE19-0012), the Labex Action program (ANR-11-LABX-0001-01) and the Coll{\'e}gium SMYLE. It is supported also by the French RENATECH network and its FEMTO-ST technological facility. Funding Information: This work was partially supported by the ANR program (project DOCT-VCSEL ANR-15-CE19-0012), the Labex Action program (ANR-11-LABX-0001-01) and the Coll{\'e}gium SMYLE. It is supported also by the French RENATECH network and its FEMTO-ST technological facility. Publisher Copyright: {\textcopyright} 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

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AU - Perrin, S.

AU - Bargiel, S.

AU - Albero, J.

AU - Gaiffe, O.

AU - Rutkowski, J.

AU - Cote, J. M.

AU - Krauter, J.

AU - Osten, W.

AU - Wang, W. S.

AU - Weimer, M.

AU - Froemel, J.

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N2 - OCT instruments permit fast and non-invasive 3D optical biopsies of biological tissues. However, they are bulky and expensive, making them only affordable at the hospital and thus, not sufficiently used as an early diagnostic tool. Significant reduction of system cost and size is achieved by implementation of MOEMS technologies. We propose an active array of 4x4 Mirau microinterferometers where the reference micro-mirrors are carried by a vertical comb-drive microactuator, enabling the implementation of the phase-shifting technique that improves the sensitivity and eliminates unwanted interferometric terms. We focus on the design of the imaging system, the microfabrication and the assembly of the Mirau microinterferometer, and the swept-source OCT imaging.

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