相位分辨太赫兹自检测近场显微镜术
Phase-resolved terahertz self-detection near-field microscopy.
作者信息
Giordano Maria C, Mastel Stefan, Liewald Clemens, Columbo Lorenzo L, Brambilla Massimo, Viti Leonardo, Politano Antonio, Zhang Kai, Li Lianhe, Davies A Giles, Linfield Edmund H, Hillenbrand Rainer, Keilmann Fritz, Scamarcio Gaetano, Vitiello Miriam S
出版信息
Opt Express. 2018 Jul 9;26(14):18423-18435. doi: 10.1364/OE.26.018423.
At terahertz (THz) frequencies, scattering-type scanning near-field optical microscopy (s-SNOM) based on continuous wave sources mostly relies on cryogenic and bulky detectors, which represents a major constraint for its practical application. Here, we devise a THz s-SNOM system that provides both amplitude and phase contrast and achieves nanoscale (60-70nm) in-plane spatial resolution. It features a quantum cascade laser that simultaneously emits THz frequency light and senses the backscattered optical field through a voltage modulation induced inherently through the self-mixing technique. We demonstrate its performance by probing a phonon-polariton-resonant CsBr crystal and doped black phosphorus flakes.
在太赫兹(THz)频率下,基于连续波源的散射型扫描近场光学显微镜(s-SNOM)大多依赖于低温且体积庞大的探测器,这对其实际应用构成了主要限制。在此,我们设计了一种太赫兹s-SNOM系统,该系统可提供幅度和相位对比度,并实现纳米级(60 - 70纳米)的平面内空间分辨率。它的特点是采用了量子级联激光器,该激光器能同时发射太赫兹频率的光,并通过自混合技术固有地诱导的电压调制来感知背向散射光场。我们通过探测声子 - 极化激元共振的溴化铯晶体和掺杂的黑磷薄片来展示其性能。
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