Your search keyword '"Bing-Yi Hung"' showing total 2 results

1. Resonant energy transfer and light scattering enhancement of plasmonic random lasers embedded with silver nanoplates

Author

Ja-Hon Lin, Jia-Huei Hsiao, Bing-Yi Hung, Chi-Ching Kuo, Wei-Cheng Chen, Kasimayan Uma, and Shih-Wen Chen

Subjects

Materials science, Photoluminescence, Random laser, business.industry, Scattering, General Chemical Engineering, Slope efficiency, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Light scattering, 010309 optics, 0103 physical sciences, Optoelectronics, Surface plasmon resonance, 0210 nano-technology, business, Lasing threshold, Plasmon

Abstract

The resonant energy transfer enhancement from a plasmonic random laser (PRL) has been investigated by means of a dye-covered PVA film with embedded silver nanoplates (DC-PVA/AgNPs). Different sizes and morphologies of AgNPs were adopted to shift the localized surface plasmon resonance (LSPR) and intensify recurrent light scattering between the AgNPs. For better overlap between surface plasmon resonance and the photoluminescence of fluorescent molecules with appropriately-sized silver nanoprisms, the slope efficiency of the PRL was greatly enhanced and the lasing threshold was obviously reduced. In addition, the photon lifetime for the DC-PVA/AgNPs film reveals an apparent decline around 1.39 ns owing to better coupling with LSPR. The stronger light scattering of samples with bigger-sized silver nanoprisms has been demonstrated by coherent back scattering measurements, which reveals a smaller transport mean free path around 3.3 μm. With α-stable analysis, it has been successfully demonstrated that the tail exponent α can be regarded as an identifier of the threshold of random lasing.

Published

2020

2. Random lasers from photonic crystal wings of butterfly and moth for speckle-free imaging

Author

Thomas C.-K. Yang, Bing-Yi Hung, Jin-You Lu, Po-Han Tung, Matteo Chiesa, Ja-Hon Lin, and Shih-Wen Chen

Subjects

Optics and Photonics, Materials science, Light, Surface Properties, Physics::Optics, 02 engineering and technology, Moths, 01 natural sciences, Models, Biological, law.invention, 010309 optics, Speckle pattern, Optics, law, 0103 physical sciences, Animals, Scattering, Radiation, Wings, Animal, Photonic crystal, Crystallography, biology, Scattering, business.industry, Lasers, 021001 nanoscience & nanotechnology, Laser, biology.organism_classification, Atomic and Molecular Physics, and Optics, Papilio ulysses, Butterfly, Microscopy, Electron, Scanning, Computer-Aided Design, 0210 nano-technology, business, Crystallization, Lasing threshold, Butterflies

Abstract

Several biological membranes have been served as scattering materials of random lasers, but few of them include natural photonic crystals. Here, we propose and demonstrate a facile approach to fabricating high-performance biological photonic crystal random lasers, which is cost-effective and reproducible for mass production. As a benchmark, optical and lasing properties of dye-coated Lepidoptera wings, including Papilio ulysses butterfly and Chrysiridia rhipheus moth, are characterized and show a stable laser emission with a superior threshold of 0.016 mJ/cm2, as compared to previous studies. To deploy the proposed devices in practical implementation, we have applied the as-fabricated biological devices to bright speckle-free imaging applications, which is a more sustainable and more accessible imaging strategy.

Published

2021