用于800和1550纳米激发的砷基太赫兹材料和器件

The Ninth International Conference on Advanced Semiconductor Devices and Mircosystems Pub Date : 2012-11-01 DOI:10.1109/ASDAM.2012.6418554

M. Missous, I. Kostakis, D. Saeedkia

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引用次数: 0

摘要

在分子束外延(MBE)系统中，利用低温生长技术制备了适合于800和1550 nm激发的III-V型半导体化合物光导体。制作了光导天线，并在时域光谱(TDS)系统中进行了测试。合成的光导体可以吸收波长为800 nm或1.55 μm的光。光导天线由孔径结构和偶极子结构组成。结合独特的材料特性，如飞秒载波寿命、高暗电阻率和高迁移率，以及天线结构的几何形状，导致了在两个激发波长下都能完全运行的太赫兹器件的发展。

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Arsenide-based terahertz materials and devices for 800 and 1550 nm excitations

Photoconductors based on III-V semiconductor compounds, and suitable for 800 and 1550 nm excitations, were grown using the low temperature growth technique in a Molecular Beam Epitaxy (MBE) system. Photoconductive antennas were fabricated and tested in a time-domain spectroscopy (TDS) system. The photoconductors were synthesised to absorb light at the wavelengths of 800 nm or 1.55 μm. The photoconductive antennas were composed of aperture and dipole structures. A combination of the unique material characteristics, such as femtosecond carrier lifetime, high dark resistivity and high mobility, and the geometry of the antenna structures resulted in the development of fully operational THz devices at both excitation wavelengths.

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The Ninth International Conference on Advanced Semiconductor Devices and Mircosystems

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