Session Index

Nanophotonic Materials and Devices

Plasmonics and Metamaterials
Friday, Dec. 4, 2015  14:10-15:40
Chair: Lan, Yung-Chiang,Kuo-Ping Chen
Room: Delta 105(1F)
Notes: N/A
14:10 - 14:40 Paper No.  2015-FRI-S0101-I001
Invited Speaker:
Takuo Tanaka
Towards Isotropic Optical Metamaterials


 
14:40 - 14:55 Paper No.  2015-FRI-S0101-O001
Ting-Yu Chen Award Candidate Aluminum Plasmonic Polarization State Generator


An aluminum-based all-reflective polarization state generator is presented in visible spectrum region. We numerically and experimentally demonstrated the generation of six kinds of polarizations with rotated nanorods under illumination of linear polarized light based on the mechanism of Pancharatnam-Berry phase.

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14:55 - 15:10 Paper No.  2015-FRI-S0101-O002
Wen-Wei Lin Award Candidate Surface Plasmon-Enhanced Three-dye FRET System Based on DNA Biopolymer


We present a three-dye FRET system based on DNA biopolymer. By virtue of the structural features of DNA molecules, efficiency of FRET is enhanced compared to the PMMA counterpart. Further enhanced emission of the three-dye double-FRET system can be realized by localized surface plasmon effect via addition of metallic nanoparticles.

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15:10 - 15:25 Paper No.  2015-FRI-S0101-O003
ChungYing Lin Award Candidate Switchable surface plasmon subwavelength focusing and bi-directional vortex creation in a metasurface


We demonstrate for the first time that dynamic controls to surface plasmon subwavelength focusing or bi-directional vortex creations can be achieved simply through changing the orientations of linearly-polarized optical excitation.

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15:25 - 15:40 Paper No.  2015-FRI-S0101-O004
Jhen-Ting Lian Award Candidate High performance Al-based surface plasmon polariton UV nanolasers


We have demonstrated UV surface plasmon polariton ZnO nanolasers and investigated the effect of aluminum thin film prepared by E-gun and MBE. Measurements and simulations revealed that the threshold power density will be influenced by the metal quality due to scattering loss resulting from the different fabrication method.

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