A. Milne, P. Curtis, M. Missous, W. S. Truscott, E. Linfield, C. Worrall
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引用次数: 0
摘要
只提供摘要形式。报道了三势垒量子阱结构中光子辅助隧穿的测量结果。AlGaAs/GaAs结构系列已被广泛表征,其量子阱约束能为40至90 meV。量子阱态的能量宽度为1.2 meV。卡文迪什实验室的量子级联激光器(2.9太赫兹,>50兆瓦)在第一个量子阱被热填充时激发量子阱之间的跃迁,并且通过施加偏置实现了量子阱态的正确分离。电磁场通过周期在15 ~ 29 μ l /m之间的金属衍射光栅耦合到结构中。测量了光感应电流作为偏置和温度的函数。估计的探测率与其他太赫兹探测器的探测率进行了比较。讨论了通过优化电磁场与结构的耦合来提高探测能力的可能性。
Terahertz detection using photon-assisted tunnelling in triple-barrier quantum well structures
Summary form only given. The results of measurements on photon-assisted tunnelling in triple-barrier quantum well structures are reported. The series of AlGaAs/GaAs structures have been extensively characterised and have quantum well confinement energies of 40 to 90 meV. The energy width of the quantum well states is appropriately 1.2 meV. A Cavendish Laboratory quantum cascade laser (2.9 THz, >50 mW) excites transitions between quantum wells when the first well is thermally populated and the correct separation of the quantum well states has been achieved by the applied bias. The electromagnetic field is coupled into the structures by metallic diffraction gratings with periods between 15 and 29 /spl mu/m. The photo-induced currents have been measured as a function of bias and temperature. The estimated detectivities are compared with those for other Terahertz detectors. The potential for improvement in detectivity by optimizing the coupling of the electromagnetic field into the structures is discussed.
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