Electrically tunable all-PCM visible plasmonics
The realization of electrically tunable plasmonic resonances in the ultraviolet (UV) to visible spectral band is particularly important for active nanophotonic device applications. However, the plasmonic resonances in the UV to visible wavelength range cannot be tuned due to the lack of tunable plas...
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sg-ntu-dr.10356-1535122023-02-28T19:36:04Z Electrically tunable all-PCM visible plasmonics Sreekanth, Kandammathe Valiyaveedu Medwal, Rohit Das, Chandreyee Manas6 Gupta, Manoj Mishra, Mayank Yong, Ken-Tye Rawat, Rajdeep Singh Singh, Ranjan School of Physical and Mathematical Sciences School of Electrical and Electronic Engineering Agency for Science, Technology and Research (A*STAR) Centre for Disruptive Photonic Technologies (CDPT) The Photonics Institute Science::Physics Thin Films Plasmonics Optical Properties Quantum Mechanics Resonance Structures The realization of electrically tunable plasmonic resonances in the ultraviolet (UV) to visible spectral band is particularly important for active nanophotonic device applications. However, the plasmonic resonances in the UV to visible wavelength range cannot be tuned due to the lack of tunable plasmonic materials. Here, we experimentally demonstrate tunable plasmonic resonances at visible wavelengths using a chalcogenide semiconductor alloy such as antimony telluride (Sb2Te3), by switching the structural phase of Sb2Te3 from amorphous to crystalline. We demonstrate the excitation of a propagating surface plasmon with a high plasmonic figure of merit in both amorphous and crystalline phases of Sb2Te3 thin films. We show polarization-dependent and -independent plasmonic resonances by fabricating one and two-dimensional periodic nanostructures in Sb2Te3 thin films, respectively. Moreover, we demonstrate electrically tunable plasmonic resonances using a microheater integrated with the Sb2Te3/Si device. The developed electrically tunable Sb2Te3-based plasmonic devices could find applications in the development of active color filters. Agency for Science, Technology and Research (A*STAR) Accepted version The authors (K.V.S. and R.S.) acknowledge the funding support from Advanced Manufacturing and Engineering (AME) Programmatic (Grant No. A18A5b0056) by Agency for Science, Technology and Research. 2021-12-27T07:03:39Z 2021-12-27T07:03:39Z 2021 Journal Article Sreekanth, K. V., Medwal, R., Das, C. M., Gupta, M., Mishra, M., Yong, K., Rawat, R. S. & Singh, R. (2021). Electrically tunable all-PCM visible plasmonics. Nano Letters, 21(9), 4044-4050. https://dx.doi.org/10.1021/acs.nanolett.1c00941 1530-6984 https://hdl.handle.net/10356/153512 10.1021/acs.nanolett.1c00941 33900781 2-s2.0-85105905465 9 21 4044 4050 en A18A5b0056 Nano Letters 10.21979/N9/4JPHRK This document is the Accepted Manuscript version of a Published Work that appeared in final form in Nano Letters, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.nanolett.1c00941. application/pdf application/pdf |
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Science::Physics Thin Films Plasmonics Optical Properties Quantum Mechanics Resonance Structures Sreekanth, Kandammathe Valiyaveedu Medwal, Rohit Das, Chandreyee Manas6 Gupta, Manoj Mishra, Mayank Yong, Ken-Tye Rawat, Rajdeep Singh Singh, Ranjan Electrically tunable all-PCM visible plasmonics |
| description |
The realization of electrically tunable plasmonic resonances in the ultraviolet (UV) to visible spectral band is particularly important for active nanophotonic device applications. However, the plasmonic resonances in the UV to visible wavelength range cannot be tuned due to the lack of tunable plasmonic materials. Here, we experimentally demonstrate tunable plasmonic resonances at visible wavelengths using a chalcogenide semiconductor alloy such as antimony telluride (Sb2Te3), by switching the structural phase of Sb2Te3 from amorphous to crystalline. We demonstrate the excitation of a propagating surface plasmon with a high plasmonic figure of merit in both amorphous and crystalline phases of Sb2Te3 thin films. We show polarization-dependent and -independent plasmonic resonances by fabricating one and two-dimensional periodic nanostructures in Sb2Te3 thin films, respectively. Moreover, we demonstrate electrically tunable plasmonic resonances using a microheater integrated with the Sb2Te3/Si device. The developed electrically tunable Sb2Te3-based plasmonic devices could find applications in the development of active color filters. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Sreekanth, Kandammathe Valiyaveedu Medwal, Rohit Das, Chandreyee Manas6 Gupta, Manoj Mishra, Mayank Yong, Ken-Tye Rawat, Rajdeep Singh Singh, Ranjan |
| format |
Article |
| author |
Sreekanth, Kandammathe Valiyaveedu Medwal, Rohit Das, Chandreyee Manas6 Gupta, Manoj Mishra, Mayank Yong, Ken-Tye Rawat, Rajdeep Singh Singh, Ranjan |
| author_sort |
Sreekanth, Kandammathe Valiyaveedu |
| title |
Electrically tunable all-PCM visible plasmonics |
| title_short |
Electrically tunable all-PCM visible plasmonics |
| title_full |
Electrically tunable all-PCM visible plasmonics |
| title_fullStr |
Electrically tunable all-PCM visible plasmonics |
| title_full_unstemmed |
Electrically tunable all-PCM visible plasmonics |
| title_sort |
electrically tunable all-pcm visible plasmonics |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/153512 |
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1759856064742817792 |