超高分辨率共振C形孔径纳米尖端。
Ultra-high resolution resonant C-shaped aperture nano-tip.
作者信息
Cheng Yao-Te, Takashima Yuzuru, Yuen Yin, Hansen Paul C, Leen J Brian, Hesselink Lambertus
机构信息
Department of Materials Science and Engineering, Stanford University, 420 Via Palou Mall, Stanford, California 94305, USA.
出版信息
Opt Express. 2011 Mar 14;19(6):5077-85. doi: 10.1364/OE.19.005077.
We report a new optical near-field transducer comprised of a metallic nano-antenna extending from the ridge of a C-shaped metallic nano-aperture. Finite-difference time domain simulations predict that the C-aperture nano-tip (CAN-Tip) provides high intensity (650x), high optical resolution (~λ/60), and background-free near-field illumination at a wavelength of 980 nm. The CAN-Tip has an aperture resonance and tip antenna resonance which may be tuned independently, so the structure can be made resonant at ultraviolet wavelengths without being unduly small. This near-field optical resolution of 16.1 nm has been experimentally confirmed by employing the CAN-Tip as an NSOM probe.
我们报道了一种新型光学近场换能器,它由一个从C形金属纳米孔径的脊延伸出的金属纳米天线组成。时域有限差分模拟预测,C孔径纳米尖端(CAN-Tip)在980nm波长处可提供高强度(650倍)、高光学分辨率(约λ/60)且无背景的近场照明。CAN-Tip具有孔径共振和尖端天线共振,这两种共振可独立调谐,因此该结构可在紫外波长下实现共振,而无需过小尺寸。通过将CAN-Tip用作近场扫描光学显微镜(NSOM)探针,已通过实验证实了16.1nm的这种近场光学分辨率。
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