论文信息 - An InAs/InP(100) QD waveguide photodetector for OCT application

An InAs/InP(100) QD waveguide photodetector for OCT application

The application of the wavelength range of 1600 nm to 1800nm in optical coherent tomography (OCT) is attractive for its deeper penetration through the tissue due to a reduction of scattering [1]. One of the important elements in the OCT setup is the photodetector. The performance of commercial standard InGaAs detectors is limited due to low response for wavelengths above 1600 nm and p-doped InGaAs detectors have a significantly higher noise level. Thus a low noise photodetector working efficiently in this wavelength region is desired. In this contribution, we present our first results on quantum-dot (QD) waveguide photodetectors, which are realized by applying a reverse-bias voltage on a quantum dot semiconductor optical amplifier (QDSOA).

[1] M. Smit,et al. Self Assembled InAs/InP Quantum Dots for Telecom Applications in the 1.55 µm Wavelength Range: Wavelength Tuning, Stacking, Polarization Control, and Lasing , 2006 .

[2] T. G. van Leeuwen,et al. Quantitative comparison of the OCT imaging depth at 1300 nm and 1600 nm , 2010, Biomedical optics express.

[3] M. Smit,et al. Measurement and analysis of optical gain spectra in 1.6 to 1.8 μm InAs/InP (100) quantum-dot amplifiers , 2009 .