FOM-Institute for Atomic and Molecular Physics AMOLF, Science Park 104, 1098 XG Amsterdam, Netherlands.
Phys Rev Lett. 2013 Jun 28;110(26):266804. doi: 10.1103/PhysRevLett.110.266804. Epub 2013 Jun 26.
Here we demonstrate a novel surface plasmon polariton (SPP) microscope which is capable of imaging below the optical diffraction limit. A plasmonic lens, generated through phase-structured illumination, focuses SPPs down to their diffraction limit and scans the focus with steps as small as 10 nm. This plasmonic lens is implemented on a metallic nanostructure consisting of alternating hole array gratings and bare metal arenas. We use subwavelength scattering holes placed within the bare metal arenas to determine the resolution of our microscope. The resolution depends on the size of the scanning SPP focus. This novel technique has the potential for biomedical imaging microscopy, surface biology, and functionalization chemistry.
在这里,我们展示了一种新型的表面等离激元(SPP)显微镜,它能够实现低于光学衍射极限的成像。通过相结构照明产生的等离子体透镜将 SPP 聚焦到它们的衍射极限,并以小至 10nm 的步长扫描焦点。这种等离子体透镜是在由交替的孔阵列光栅和裸露金属竞技场组成的金属纳米结构上实现的。我们使用置于裸露金属竞技场中的亚波长散射孔来确定显微镜的分辨率。分辨率取决于扫描 SPP 焦点的大小。这项新技术具有用于生物医学成像显微镜、表面生物学和功能化化学的潜力。
