Title :
Nanofocusing via Efficient Excitation Surface Plasmon Polaritons in a Hollow Aluminum Wedge
Author :
Yongzhu Chen ; Xiangsheng Xie ; Li Li ; Jianying Zhou
Author_Institution :
Key Lab. of Numerical Controlled Technol., Guangdong Polytech. Normal Univ., Guangzhou, China
Abstract :
Efficient nanofocusing down to a few nanometers in a hollow aluminum wedge is numerically investigated. The waveguide propagation modes are efficiently converted to internal surface plasmon polaritons via a pair of grooves fabricated at the inner surface of the wedge and a remarkable field enhancement is realized at the aperture. The excitation efficiency can be further improved by optimizing spatial wavefront modulation of the incident light field via a binary optical element, and the output intensity through a 5-nm aperture is enhanced by 786 times compared with a conventional 100-nm aperture hollow metallic wedge.
Keywords :
optical focusing; optical waveguides; polaritons; surface plasmons; binary optical element; efficient excitation surface plasmon polaritons; excitation efficiency; field enhancement; hollow aluminum wedge; hollow metallic wedge; incident light field; internal surface plasmon polaritons; nanofocusing; spatial wavefront modulation; waveguide propagation modes; Aluminum waveguide; nanofocusing; nanostructrues; surface plasmon polaritons (SPPs);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2256119
