Bio-inspired wrinkle microstructures for random lasing governed by surface roughness
A method for fabricating bio-inspired scattering substrates based on polydimethylsiloxane (PDMS) for spatially incoherent random lasing is presented. The leaves of monstera and piper sarmentosum plants are used to mold PDMS polymer to form wrinkle-like scattering substrates, which are then used with...
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sg-ntu-dr.10356-1465302023-09-30T16:48:15Z Bio-inspired wrinkle microstructures for random lasing governed by surface roughness Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Matham, Murukeshan Vadakke School of Mechanical and Aerospace Engineering Centre for Optical and Laser Engineering Science::Physics::Optics and light Random Lasing Bio-inspired Structures A method for fabricating bio-inspired scattering substrates based on polydimethylsiloxane (PDMS) for spatially incoherent random lasing is presented. The leaves of monstera and piper sarmentosum plants are used to mold PDMS polymer to form wrinkle-like scattering substrates, which are then used with a liquid gain medium for random lasing. Scattering is attributed to the surface roughness (S ) of the samples. The rougher sample with 5.2 µm S shows a two-mode stable lasing with a 2 nm linewidth and a lower threshold fluence of 0.2mJ/cm2 compared to the sample with smaller S (3.6 µm) with a linewidth of 5 nm and a threshold fluence of 0.5mJ/cm2. The waveguide theory substantiates the results of incoherent random lasing through a relation between the microstructure feature size and the mean free path. Power Fourier transform analysis is used to deduce the resonant cavity length of 180 µm in the rougher sample, and the observed variations in cavity length with S validate the optical feedback. PDMS being hydrophobic, the scattering substrate can be reused by wiping off the gain medium. This Letter paves the way for facile fabrication methods of bio-inspired random lasers for sensing and imaging applications. Economic Development Board (EDB) Ministry of Education (MOE) Submitted/Accepted version Ministry of Education-Singapore (RG 192/17); Economic Development Board-Singapore. 2021-02-25T01:32:36Z 2021-02-25T01:32:36Z 2021 Journal Article Gummaluri, V. S., Gayathri, R., Vijayan, C. & Matham, M. V. (2021). Bio-inspired wrinkle microstructures for random lasing governed by surface roughness. Optics Letters, 46(5), 1033-1036. https://dx.doi.org/10.1364/OL.417148 1539-4794 https://hdl.handle.net/10356/146530 10.1364/OL.417148 33649650 2-s2.0-85102224855 5 46 1033 1036 en RG 192/17 Optics Letters © 2021 Optical Society of America. All rights reserved. One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modifications of the content of this paper are prohibited. application/pdf |
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Science::Physics::Optics and light Random Lasing Bio-inspired Structures Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Matham, Murukeshan Vadakke Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| description |
A method for fabricating bio-inspired scattering substrates based on polydimethylsiloxane (PDMS) for spatially incoherent random lasing is presented. The leaves of monstera and piper sarmentosum plants are used to mold PDMS polymer to form wrinkle-like scattering substrates, which are then used with a liquid gain medium for random lasing. Scattering is attributed to the surface roughness (S ) of the samples. The rougher sample with 5.2 µm S shows a two-mode stable lasing with a 2 nm linewidth and a lower threshold fluence of 0.2mJ/cm2 compared to the sample with smaller S (3.6 µm) with a linewidth of 5 nm and a threshold fluence of 0.5mJ/cm2. The waveguide theory substantiates the results of incoherent random lasing through a relation between the microstructure feature size and the mean free path. Power Fourier transform analysis is used to deduce the resonant cavity length of 180 µm in the rougher sample, and the observed variations in cavity length with S validate the optical feedback. PDMS being hydrophobic, the scattering substrate can be reused by wiping off the gain medium. This Letter paves the way for facile fabrication methods of bio-inspired random lasers for sensing and imaging applications. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Matham, Murukeshan Vadakke |
| format |
Article |
| author |
Gummaluri, Venkata Siva Gayathri, R. Vijayan, C. Matham, Murukeshan Vadakke |
| author_sort |
Gummaluri, Venkata Siva |
| title |
Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| title_short |
Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| title_full |
Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| title_fullStr |
Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| title_full_unstemmed |
Bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| title_sort |
bio-inspired wrinkle microstructures for random lasing governed by surface roughness |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146530 |
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1779156315403190272 |