高平均功率太赫兹脉冲激发的 1030 纳米波长光电导接收器的性能

IF 3.9 2区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Tim Vogel;Samira Mansourzadeh;Uttam Nandi;Justin Norman;Sascha Preu;Clara J. Saraceno
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引用次数: 0

摘要

在过去几年中,高平均功率脉冲太赫兹源的演示取得了许多进展;然而,在研究兼容的灵敏场分辨探测器方面却鲜有建树。在此,我们对 ErAs:InAlGaAs 光电导接收器进行了研究,该接收器针对 1030 nm 的探测波长进行了优化,因此适用于用于太赫兹产生和探测的新型高功率超快镱基激光源。使用平均功率高达 20 mW 的几周期太赫兹源对接收器的性能进行了测试,并对接收器的动态范围和饱和行为进行了全面鉴定。在优化设置下,20 mW 太赫兹平均功率的动态范围在 120 秒的测量时间内达到 115 dB 以上,是迄今为止报告的最高值之一。通过回顾最先进的时域光谱测量和后处理技术,我们确定了当前的局限性和指导方针,以便在短测量时间内使用带有灵敏光电导接收器的高平均功率 THz 系统将动态范围进一步提高到 150 dB。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of Photoconductive Receivers at 1030 nm Excited by High Average Power THz Pulses
In the last few years, many advances have been made in the demonstration of high-average power pulsed THz sources; however, little effort has been made to study compatible sensitive field-resolved detectors. Here, we investigate ErAs:InAlGaAs photoconductive receivers optimized for a probe wavelength of 1030 nm and thus suitable for the new class of high-power ultrafast Ytterbium-based laser sources for THz generation and detection. The performance of the receiver is tested with a few-cycle THz source with high average power up to 20 mW and the dynamic range and saturation behavior of the receiver is thoroughly characterized. Under optimized settings, a dynamic range of more than 115 dB is reached in a 120 s measurement time with 20 mW of THz average power, which is among the highest reported values to date. By reviewing the state-of-the art in time domain spectroscopy measurement and postprocessing technology, we identify current limitations and guidelines for further increasing the dynamic range toward 150 dB in short measurement times using high average power THz systems with sensitive photoconductive receivers.
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来源期刊
IEEE Transactions on Terahertz Science and Technology
IEEE Transactions on Terahertz Science and Technology ENGINEERING, ELECTRICAL & ELECTRONIC-OPTICS
CiteScore
7.10
自引率
9.40%
发文量
102
期刊介绍: IEEE Transactions on Terahertz Science and Technology focuses on original research on Terahertz theory, techniques, and applications as they relate to components, devices, circuits, and systems involving the generation, transmission, and detection of Terahertz waves.
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