Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer
We report our results on a plasmonic random laser with three-dimensional (3D) gold nano-urchins as scatterers distributed in Rhodamine 6G dye doped polymer film. The performance of anisotropic urchin scatterers is first studied using electromagnetic simulations for absorption/scattering cross-sectio...
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sg-ntu-dr.10356-1439902023-03-04T17:24:34Z Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Murukeshan, Vadakke Matham School of Mechanical and Aerospace Engineering Engineering::Materials Random Lasers Nano-urchins We report our results on a plasmonic random laser with three-dimensional (3D) gold nano-urchins as scatterers distributed in Rhodamine 6G dye doped polymer film. The performance of anisotropic urchin scatterers is first studied using electromagnetic simulations for absorption/scattering cross-section and local field enhancement. This is compared to gold nanoparticles of similar size. The simulation results indicate a two-fold local field enhancement, a higher scattering cross-section, and a low absorption cross-section in the 400 nm-570 nm spectral region of interest for nano-urchins. The effective scattering mean free path for urchins is calculated to be 90 µm less than nanoparticles. This suggests nano-urchins to be efficient scatterers over conventional nanospheres for random lasing. Random laser is then experimentally demonstrated using gold nano-urchin scatterers. Incoherent random lasing is observed for very low urchin number density of order ~108 cm-3. A three-fold increase in scatterer concentration is shown to reduce the threshold energy from 0.8 mJ to 0.28 mJ per pulse. This is accompanied by a linewidth decrease from the rhodamine 6G emission bandwidth of 58 nm to up to 3 nm. The random feedback mechanism has been validated using a different spot pump scheme and angular measurement of emission. With low gold nano-urchin concentration, being incoherent and in film form, this plasmonic random laser could be an economical solution for speckle-free imaging applications. Ministry of Education (MOE) Accepted version V S Gummaluri thanks COLE-EDB for funding, R Gayathri thanks NTU-India connect for the joint degree program. V M Murukeshan acknowledges the Ministry of Education, MOE Singapore (RG 192/17) for financial support. 2020-10-07T01:23:42Z 2020-10-07T01:23:42Z 2020 Journal Article Gummaluri, V. S., Gayathri, R., Vijayan, C., & Murukeshan, V. M. (2020). Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer. Journal of Optics, 22(6), 065003-. doi:10.1088/2040-8986/ab896b 2040-8986 https://hdl.handle.net/10356/143990 10.1088/2040-8986/ab896b 6 22 065003-1 065003-10 en Journal of Optics © 2020 IOP Publishing. All rights reserved. This paper was published in Journal of Optics and is made available with permission of IOP Publishing. application/pdf |
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Engineering::Materials Random Lasers Nano-urchins Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Murukeshan, Vadakke Matham Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| description |
We report our results on a plasmonic random laser with three-dimensional (3D) gold nano-urchins as scatterers distributed in Rhodamine 6G dye doped polymer film. The performance of anisotropic urchin scatterers is first studied using electromagnetic simulations for absorption/scattering cross-section and local field enhancement. This is compared to gold nanoparticles of similar size. The simulation results indicate a two-fold local field enhancement, a higher scattering cross-section, and a low absorption cross-section in the 400 nm-570 nm spectral region of interest for nano-urchins. The effective scattering mean free path for urchins is calculated to be 90 µm less than nanoparticles. This suggests nano-urchins to be efficient scatterers over conventional nanospheres for random lasing. Random laser is then experimentally demonstrated using gold nano-urchin scatterers. Incoherent random lasing is observed for very low urchin number density of order ~108 cm-3. A three-fold increase in scatterer concentration is shown to reduce the threshold energy from 0.8 mJ to 0.28 mJ per pulse. This is accompanied by a linewidth decrease from the rhodamine 6G emission bandwidth of 58 nm to up to 3 nm. The random feedback mechanism has been validated using a different spot pump scheme and angular measurement of emission. With low gold nano-urchin concentration, being incoherent and in film form, this plasmonic random laser could be an economical solution for speckle-free imaging applications. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Murukeshan, Vadakke Matham |
| format |
Article |
| author |
Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Murukeshan, Vadakke Matham |
| author_sort |
Gummaluri, Venkata Siva |
| title |
Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| title_short |
Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| title_full |
Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| title_fullStr |
Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| title_full_unstemmed |
Gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| title_sort |
gold nano-urchins for plasmonic enhancement of random lasing in a dye-doped polymer |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143990 |
| _version_ |
1759854579924598784 |