Fiberoptic Confocal Microscopy Using a 1.55-μm Fiber Laser for Multimodal Biophotonics Applications

Author

Kim, Do-Hyun ; Ilev, Ilko K. ; Kang, Jin U.

Author_Institution

U.S. Food & Drug Adm., Silver Spring

Volume

14

Issue

1

fYear

2008

Firstpage

82

Lastpage

87

Abstract

We have experimentally demonstrated a fiberoptic confocal microscope using a 1.55-mum laser source. A compact and efficient Er-doped fiber laser source and conventional single-mode fiber components were used to construct a near-infrared fiberoptic confocal microscope system with 3-D scanning capability. A broadband 1.55-mum light source was used to reduce fringe patterns and interferences that occur when a highly coherent source is used. Our system showed a lateral resolution as high as 1.1 mum with a 60times objective lens, which is close to the theoretical limit. The system can be used in various multimodal biophotonics platforms including precise 3D imaging, biosensing, and laser tissue ablation due to its high water absorption characteristics while maintaining low thermomechanical and self-focusing damage from high-power lasers.

Keywords

biomedical optical imaging; fibre lasers; laser applications in medicine; optical microscopy; 3-D imaging; 3-D scanning; biomedical optical imaging; biosensing; fiber laser; fiberoptic confocal microscopy; fringe patterns; high-power lasers; laser tissue ablation; multimodal biophotonics applications; self-focusing damage; single-mode fiber components; thermomechanical damage; water absorption characteristics; wavelength 1.55 mum; Biophotonics; Erbium-doped fiber lasers; Fiber lasers; High-resolution imaging; Interference; Laser ablation; Laser theory; Lenses; Light sources; Microscopy; Biomedical optical imaging; microscopy; optical fiber applications;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/JSTQE.2007.914589

Filename

4451122