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单偏振半导体光放大器扫频光相干成像系统 被引量:6

Optical Coherence Imaging System Based on a Polarization-Dependent Semiconductor Optical Amplifier-Enabled Swept Laser
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摘要 搭建完成了基于单偏振半导体光放大器扫频光源的光相干成像系统,此系统可以实现高速光相干层析成像与光相干显微成像。系统中的扫频光源使用偏振相关的半导体光放大器作为放大单元,该光放大器有着增益谱宽大、输出功率高的优点,使得光源仅使用一个放大器即可获得合适的增益谱宽与输出功率,并可采用傅里叶域锁模技术大幅提高其扫频速率。采用傅里叶域锁模技术时,扫频光源输出功率达到32 mW左右,有效扫描频率为45kHz,输出光谱的中心波长为1326nm,光谱宽度为115nm。利用系统进行高速光相干层析成像时,横向分辨率为9μm,纵向分辨率为12.9μm左右,灵敏度为105dB。利用系统进行光相干显微成像时,可以清楚地看到洋葱内表皮细胞的结构。 As noninvasive biomedical imaging techniques, optical coherence tomography (OCT) and optical coherence microscopy have good application prospects in future. A swept-source imaging system based on a polarization-dependent semiconductor optical amplifier (SOA) enabled Fourier domain mode locked laser (FDML) is demonstrated, which can be used for the two imaging techniques mentioned above. The FDML with a polarization- dependent SOA generates ~32 mW output power at 45 kHz sweep rates, with a tuning range of 115 nm centered at 1326 nm. Because of the broad bandwidth and high saturation power of the polarization-dependent SOA, the laser has the advantage of simple structure. It uses only one SOA for operating with enough bandwidth and output power. Using the SOA-enabled FDML laser, an OCT system with axial resolution of ~ 12.9μm, transverse spot size of 9 μm and sensitivity of 105 dB is achieved. The structure of the epidermal cells of onion can be observed by this imaging system.
作者 尚怀嬴 霍力 吴远鹏 娄采云
机构地区 清华大学电子工程系信息科学与技术国家实验室 北京无线电计量测试研究所 计量与校准技术国家级重点实验室
出处 《中国激光》 EI CAS CSCD 北大核心 2014年第11期10-16,共7页 Chinese Journal of Lasers
基金 清华大学电子工程系传信基金
关键词 相干光学 傅里叶域锁模结构光源 光相干层析 光相干显微镜 半导体光放大器 coherence optics Fourier domain mode locked laser optical coherence tomography optical coherencemicroscopy semiconductor optical amplifier
分类号 O436 [机械工程—光学工程]
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参考文献22

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引证文献6

二级引证文献23

中国激光
2014年 第11期

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