Enhanced terahertz emission and Raman signal from silicon nanopyramids

The Raman scattering and Terahertz emission of silicon nanopyramids (SiNPys) formed at different etching times were investigated. Additionally, photoluminescence spectroscopy measurements were performed to investigate the recombination properties of SiNPys. The SiNPys were fabricated via wet chemica...

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Main Authors: Felix, Mark Jayson, Muldera, Joselito E., Somintac, Armando S., Salvador, Arnel A., Estacio, Elmer S.
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Published: Animo Repository 2015
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Online Access:https://animorepository.dlsu.edu.ph/faculty_research/8134
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-88812023-01-24T01:04:07Z Enhanced terahertz emission and Raman signal from silicon nanopyramids Felix, Mark Jayson Muldera, Joselito E. Somintac, Armando S. Salvador, Arnel A. Estacio, Elmer S. The Raman scattering and Terahertz emission of silicon nanopyramids (SiNPys) formed at different etching times were investigated. Additionally, photoluminescence spectroscopy measurements were performed to investigate the recombination properties of SiNPys. The SiNPys were fabricated via wet chemical etching of heavily doped p-type silicon (100) in potassium hydroxide (KOH) solution. The formation of nanopyramidal structures was verified using Scanning Electron Microscopy (SEM). Enhanced Raman and THz signals were observed from SiNPys compared to un etched silicon surface. The enhancement of Raman signal in SiNPys is ascribed to the enhanced photon absorption from efficient light trapping effect of the nanopyramids. Moreover, broadening of the Raman peaks was observed indicating an amorphous-like structure with prolonged etching. The enhancement of THz signal in SiNPys is ascribed to increased transient current on the nanopyramids' surface. The maximum enhancement for Raman and THz signals was found for SiNPys formed after 30 mins etching. Further etching beyond 30 mins resulted in weaker Raman and THz signals. Results suggest strong correlation between the THz emission and Raman scattering of SiNPy's. This correlation may be understood from the vibrational mode dependence of both Raman scattering and THz emission. 2015-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/8134 Faculty Research Work Animo Repository Nanosilicon Raman spectroscopy Terahertz spectroscopy Physics
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Nanosilicon
Raman spectroscopy
Terahertz spectroscopy
Physics
spellingShingle Nanosilicon
Raman spectroscopy
Terahertz spectroscopy
Physics
Felix, Mark Jayson
Muldera, Joselito E.
Somintac, Armando S.
Salvador, Arnel A.
Estacio, Elmer S.
Enhanced terahertz emission and Raman signal from silicon nanopyramids
description The Raman scattering and Terahertz emission of silicon nanopyramids (SiNPys) formed at different etching times were investigated. Additionally, photoluminescence spectroscopy measurements were performed to investigate the recombination properties of SiNPys. The SiNPys were fabricated via wet chemical etching of heavily doped p-type silicon (100) in potassium hydroxide (KOH) solution. The formation of nanopyramidal structures was verified using Scanning Electron Microscopy (SEM). Enhanced Raman and THz signals were observed from SiNPys compared to un etched silicon surface. The enhancement of Raman signal in SiNPys is ascribed to the enhanced photon absorption from efficient light trapping effect of the nanopyramids. Moreover, broadening of the Raman peaks was observed indicating an amorphous-like structure with prolonged etching. The enhancement of THz signal in SiNPys is ascribed to increased transient current on the nanopyramids' surface. The maximum enhancement for Raman and THz signals was found for SiNPys formed after 30 mins etching. Further etching beyond 30 mins resulted in weaker Raman and THz signals. Results suggest strong correlation between the THz emission and Raman scattering of SiNPy's. This correlation may be understood from the vibrational mode dependence of both Raman scattering and THz emission.
format text
author Felix, Mark Jayson
Muldera, Joselito E.
Somintac, Armando S.
Salvador, Arnel A.
Estacio, Elmer S.
author_facet Felix, Mark Jayson
Muldera, Joselito E.
Somintac, Armando S.
Salvador, Arnel A.
Estacio, Elmer S.
author_sort Felix, Mark Jayson
title Enhanced terahertz emission and Raman signal from silicon nanopyramids
title_short Enhanced terahertz emission and Raman signal from silicon nanopyramids
title_full Enhanced terahertz emission and Raman signal from silicon nanopyramids
title_fullStr Enhanced terahertz emission and Raman signal from silicon nanopyramids
title_full_unstemmed Enhanced terahertz emission and Raman signal from silicon nanopyramids
title_sort enhanced terahertz emission and raman signal from silicon nanopyramids
publisher Animo Repository
publishDate 2015
url https://animorepository.dlsu.edu.ph/faculty_research/8134
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