Micromachined tethered silicon oscillator for an endomicroscopic Lissajous fiber scanner

Hyeon Cheol Park; Yeong Hyeon Seo; Kyungmin Hwang; Jae Kwan Lim; Seung Zhoo Yoon; Ki Hun Jeong

doi:10.1364/OL.39.006675

Micromachined tethered silicon oscillator for an endomicroscopic Lissajous fiber scanner

Hyeon Cheol Park, Yeong Hyeon Seo, Kyungmin Hwang, Jae Kwan Lim, Seung Zhoo Yoon, Ki Hun Jeong

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

This work reports micromachined tethered silicon oscillators (MTSOs) for endoscopic Lissajous fiber scanners. An MTSO comprises an offset silicon spring for stiffness modulation of a scanning fiber and additional mass for modulation of resonant scanning frequency in one body. MTSOs were assembled with a resonant fiber scanner and enhanced scanning reliability of the scanner by eliminating mechanical cross coupling. The fiber scanner with MTSOs was fully packaged as an endomicroscopic catheter and coupled with a conventional laparoscope and spectral domain OCT system. The endomicroscope was maneuvered with the integrated laparoscope and in vivo swine tissue OCT imaging was successfully demonstrated during open surgery. This new component serves as an important element inside an endoscopic Lissajous fiber scanner for early cancer detection or on-demand minimum lesional margin decision during noninvasive endoscopic biopsy.

Original language	English (US)
Pages (from-to)	6675-6678
Number of pages	4
Journal	Optics Letters
Volume	39
Issue number	23
DOIs	https://doi.org/10.1364/OL.39.006675
State	Published - Dec 1 2014
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OL.39.006675

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title = "Micromachined tethered silicon oscillator for an endomicroscopic Lissajous fiber scanner",

abstract = "This work reports micromachined tethered silicon oscillators (MTSOs) for endoscopic Lissajous fiber scanners. An MTSO comprises an offset silicon spring for stiffness modulation of a scanning fiber and additional mass for modulation of resonant scanning frequency in one body. MTSOs were assembled with a resonant fiber scanner and enhanced scanning reliability of the scanner by eliminating mechanical cross coupling. The fiber scanner with MTSOs was fully packaged as an endomicroscopic catheter and coupled with a conventional laparoscope and spectral domain OCT system. The endomicroscope was maneuvered with the integrated laparoscope and in vivo swine tissue OCT imaging was successfully demonstrated during open surgery. This new component serves as an important element inside an endoscopic Lissajous fiber scanner for early cancer detection or on-demand minimum lesional margin decision during noninvasive endoscopic biopsy.",

author = "Park, {Hyeon Cheol} and Seo, {Yeong Hyeon} and Kyungmin Hwang and Lim, {Jae Kwan} and Yoon, {Seung Zhoo} and Jeong, {Ki Hun}",

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AU - Seo, Yeong Hyeon

AU - Hwang, Kyungmin

AU - Lim, Jae Kwan

AU - Yoon, Seung Zhoo

AU - Jeong, Ki Hun

PY - 2014/12/1

Y1 - 2014/12/1

N2 - This work reports micromachined tethered silicon oscillators (MTSOs) for endoscopic Lissajous fiber scanners. An MTSO comprises an offset silicon spring for stiffness modulation of a scanning fiber and additional mass for modulation of resonant scanning frequency in one body. MTSOs were assembled with a resonant fiber scanner and enhanced scanning reliability of the scanner by eliminating mechanical cross coupling. The fiber scanner with MTSOs was fully packaged as an endomicroscopic catheter and coupled with a conventional laparoscope and spectral domain OCT system. The endomicroscope was maneuvered with the integrated laparoscope and in vivo swine tissue OCT imaging was successfully demonstrated during open surgery. This new component serves as an important element inside an endoscopic Lissajous fiber scanner for early cancer detection or on-demand minimum lesional margin decision during noninvasive endoscopic biopsy.

AB - This work reports micromachined tethered silicon oscillators (MTSOs) for endoscopic Lissajous fiber scanners. An MTSO comprises an offset silicon spring for stiffness modulation of a scanning fiber and additional mass for modulation of resonant scanning frequency in one body. MTSOs were assembled with a resonant fiber scanner and enhanced scanning reliability of the scanner by eliminating mechanical cross coupling. The fiber scanner with MTSOs was fully packaged as an endomicroscopic catheter and coupled with a conventional laparoscope and spectral domain OCT system. The endomicroscope was maneuvered with the integrated laparoscope and in vivo swine tissue OCT imaging was successfully demonstrated during open surgery. This new component serves as an important element inside an endoscopic Lissajous fiber scanner for early cancer detection or on-demand minimum lesional margin decision during noninvasive endoscopic biopsy.

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Micromachined tethered silicon oscillator for an endomicroscopic Lissajous fiber scanner

Abstract

ASJC Scopus subject areas

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