Electrothermally actuated MEMS scanning micromirrors and their applications in endoscopic optical coherence tomography imaging

Can Duan; Huikai Xie

doi:10.1049/PBCS025E_ch3

Electrothermally actuated MEMS scanning micromirrors and their applications in endoscopic optical coherence tomography imaging

Can Duan, Huikai Xie

University of Florida

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

This chapter is focused on introducing a unique class of electrothermal bimorph MEMS mirrors and their applications in endoscopic OCT imaging. The novel bimorph actuator designs provide the electrothermal MEMS mirrors with unrivaled combination of large linear scan range, small drive voltage, and high fill factor, making them especially suitable for endoscopic in vivo imaging of internal organs. Using the electrothermal MEMS mirror-based OCT probes, clinical imaging experiments have been performed to detect and stage early bladder cancer and oral cancer. Those MEMS OCT probes have also been successfully applied to brain tissue imaging, tooth imaging, and meniscus imaging. All these imaging experiments have demonstrated the potential and feasibility of the electrothermal MEMS-based OCT endoscopic imaging. With further improvement of the robustness of the MEMS mirrors, the clinical use of this technology is coming in the foreseeable future.

Original language	English
Title of host publication	Optical MEMS for Chemical Analysis and Biomedicine
Publisher	Institution of Engineering and Technology
Pages	65-96
Number of pages	32
ISBN (Electronic)	9781849198981
ISBN (Print)	9781849198974
DOIs	https://doi.org/10.1049/PBCS025E_ch3
Publication status	Published - 1 Jan 2016
Externally published	Yes

Keywords

Bimorph actuator
Biomedical optical imaging
Bladder cancer
Brain tissue imaging
Endoscopes
Endoscopic oct imaging
Mems oct probes
Meniscus imaging
Microactuators;electrothermal bimorph mems mirrors
Micromirrors
Micromirrors
Optical coherence tomography
Optical tomography
Oral cancer
Tooth imaging

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1049/PBCS025E_ch3

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title = "Electrothermally actuated MEMS scanning micromirrors and their applications in endoscopic optical coherence tomography imaging",

abstract = "This chapter is focused on introducing a unique class of electrothermal bimorph MEMS mirrors and their applications in endoscopic OCT imaging. The novel bimorph actuator designs provide the electrothermal MEMS mirrors with unrivaled combination of large linear scan range, small drive voltage, and high fill factor, making them especially suitable for endoscopic in vivo imaging of internal organs. Using the electrothermal MEMS mirror-based OCT probes, clinical imaging experiments have been performed to detect and stage early bladder cancer and oral cancer. Those MEMS OCT probes have also been successfully applied to brain tissue imaging, tooth imaging, and meniscus imaging. All these imaging experiments have demonstrated the potential and feasibility of the electrothermal MEMS-based OCT endoscopic imaging. With further improvement of the robustness of the MEMS mirrors, the clinical use of this technology is coming in the foreseeable future.",

keywords = "Bimorph actuator, Biomedical optical imaging, Bladder cancer, Brain tissue imaging, Endoscopes, Endoscopic oct imaging, Mems oct probes, Meniscus imaging, Microactuators;electrothermal bimorph mems mirrors, Micromirrors, Micromirrors, Optical coherence tomography, Optical tomography, Oral cancer, Tooth imaging",

author = "Can Duan and Huikai Xie",

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doi = "10.1049/PBCS025E_ch3",

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T1 - Electrothermally actuated MEMS scanning micromirrors and their applications in endoscopic optical coherence tomography imaging

AU - Duan, Can

AU - Xie, Huikai

N1 - Publisher Copyright: © The Institution of Engineering and Technology 2016.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - This chapter is focused on introducing a unique class of electrothermal bimorph MEMS mirrors and their applications in endoscopic OCT imaging. The novel bimorph actuator designs provide the electrothermal MEMS mirrors with unrivaled combination of large linear scan range, small drive voltage, and high fill factor, making them especially suitable for endoscopic in vivo imaging of internal organs. Using the electrothermal MEMS mirror-based OCT probes, clinical imaging experiments have been performed to detect and stage early bladder cancer and oral cancer. Those MEMS OCT probes have also been successfully applied to brain tissue imaging, tooth imaging, and meniscus imaging. All these imaging experiments have demonstrated the potential and feasibility of the electrothermal MEMS-based OCT endoscopic imaging. With further improvement of the robustness of the MEMS mirrors, the clinical use of this technology is coming in the foreseeable future.

AB - This chapter is focused on introducing a unique class of electrothermal bimorph MEMS mirrors and their applications in endoscopic OCT imaging. The novel bimorph actuator designs provide the electrothermal MEMS mirrors with unrivaled combination of large linear scan range, small drive voltage, and high fill factor, making them especially suitable for endoscopic in vivo imaging of internal organs. Using the electrothermal MEMS mirror-based OCT probes, clinical imaging experiments have been performed to detect and stage early bladder cancer and oral cancer. Those MEMS OCT probes have also been successfully applied to brain tissue imaging, tooth imaging, and meniscus imaging. All these imaging experiments have demonstrated the potential and feasibility of the electrothermal MEMS-based OCT endoscopic imaging. With further improvement of the robustness of the MEMS mirrors, the clinical use of this technology is coming in the foreseeable future.

KW - Bimorph actuator

KW - Biomedical optical imaging

KW - Bladder cancer

KW - Brain tissue imaging

KW - Endoscopes

KW - Endoscopic oct imaging

KW - Mems oct probes

KW - Meniscus imaging

KW - Microactuators;electrothermal bimorph mems mirrors

KW - Micromirrors

KW - Optical coherence tomography

KW - Optical tomography

KW - Oral cancer

KW - Tooth imaging

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DO - 10.1049/PBCS025E_ch3

M3 - Chapter

AN - SCOPUS:85011729160

SN - 9781849198974

SP - 65

EP - 96

BT - Optical MEMS for Chemical Analysis and Biomedicine

PB - Institution of Engineering and Technology

ER -

Electrothermally actuated MEMS scanning micromirrors and their applications in endoscopic optical coherence tomography imaging

Abstract

Keywords

UN SDGs

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