Polarization-Selective Collimation Effect with a Reflective Plasmonic Cavity
MAO Fei-Long, XIE Jin-Jin, FAN Qing-Yan, ZHANG Li-Jian, AN Zheng-Hua**
Institute of Advanced Materials, State Key Laboratory of Surface Physics and Key Laboratory of Micro and Nano Photonic Structures (Ministry of Education), Fudan University, Shanghai 200433
Polarization-Selective Collimation Effect with a Reflective Plasmonic Cavity
MAO Fei-Long, XIE Jin-Jin, FAN Qing-Yan, ZHANG Li-Jian, AN Zheng-Hua**
Institute of Advanced Materials, State Key Laboratory of Surface Physics and Key Laboratory of Micro and Nano Photonic Structures (Ministry of Education), Fudan University, Shanghai 200433
We report that a metal-dielectric-metal cavity with a perforated top metallic film shows a remarkable polarization-selective collimation effect through reflection on the perforated film. According to simulations, such plasmonic cavities can achieve nearly perfect absorption (R<1.5%) of a transverse magnetic (TM) wave at an optimized incident angle while nearly perfect reflection (R∼100%) at normal incidence. A very wide incident angle range (approximately 15°–65°) is found to exhibit a high absorption ratio exceeding over 70%. In contrast, for a transverse electric (TE) wave, the plasmonic cavities remain highly reflective (R∼100%) regardless of the incident angles. We elucidate that this polarization- and angle-dependent behavior arises from an even-order (N=2) horizontal Fabry–Pérot (FP) resonant mode inside the plasmonic cavity. This effect may find potential applications for angle filtering of polarized divergent light beams in optics.
We report that a metal-dielectric-metal cavity with a perforated top metallic film shows a remarkable polarization-selective collimation effect through reflection on the perforated film. According to simulations, such plasmonic cavities can achieve nearly perfect absorption (R<1.5%) of a transverse magnetic (TM) wave at an optimized incident angle while nearly perfect reflection (R∼100%) at normal incidence. A very wide incident angle range (approximately 15°–65°) is found to exhibit a high absorption ratio exceeding over 70%. In contrast, for a transverse electric (TE) wave, the plasmonic cavities remain highly reflective (R∼100%) regardless of the incident angles. We elucidate that this polarization- and angle-dependent behavior arises from an even-order (N=2) horizontal Fabry–Pérot (FP) resonant mode inside the plasmonic cavity. This effect may find potential applications for angle filtering of polarized divergent light beams in optics.
MAO Fei-Long, XIE Jin-Jin, FAN Qing-Yan, ZHANG Li-Jian, AN Zheng-Hua. Polarization-Selective Collimation Effect with a Reflective Plasmonic Cavity[J]. 中国物理快报, 2012, 29(7): 77308-077308.
MAO Fei-Long, XIE Jin-Jin, FAN Qing-Yan, ZHANG Li-Jian, AN Zheng-Hua. Polarization-Selective Collimation Effect with a Reflective Plasmonic Cavity. Chin. Phys. Lett., 2012, 29(7): 77308-077308.