Tailored Hypersound Generation in Single Plasmonic Nanoantennas
Ultrashort laser pulses impinging on a plasmonic nanostructure trigger a highly dynamic scenario in the interplay of electronic relaxation with lattice vibrations, which can be experimentally probed via the generation of coherent phonons. In this Letter, we present studies of hypersound generation i...
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Acceso en línea: | http://hdl.handle.net/20.500.12110/paper_15306984_v16_n2_p1428_DellaPicca |
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todo:paper_15306984_v16_n2_p1428_DellaPicca2023-10-03T16:21:20Z Tailored Hypersound Generation in Single Plasmonic Nanoantennas Della Picca, F. Berte, R. Rahmani, M. Albella, P. Bujjamer, J.M. Poblet, M. Cortés, E. Maier, S.A. Bragas, A.V. Coherent acoustic phonon gold-silica nanoantenna hypersound nanoresonator pump-probe Gold Lattice vibrations Metamaterial antennas Phonons Plasmons Probes Silica Ultrashort pulses Vibrations (mechanical) Coherent acoustic phonons Electronic relaxation Hypersound Mechanical constraints Mechanical oscillations nanoresonator Plasmonic nanostructures Pump probe Nanoantennas Ultrashort laser pulses impinging on a plasmonic nanostructure trigger a highly dynamic scenario in the interplay of electronic relaxation with lattice vibrations, which can be experimentally probed via the generation of coherent phonons. In this Letter, we present studies of hypersound generation in the range of a few to tens of gigahertz on single gold plasmonic nanoantennas, which have additionally been subjected to predesigned mechanical constraints via silica bridges. Using these hybrid gold/silica nanoantennas, we demonstrate experimentally and via numerical simulations how mechanical constraints allow control over their vibrational mode spectrum. Degenerate pump-probe techniques with double modulation are performed in order to detect the small changes produced in the probe transmission by the mechanical oscillations of these single nanoantennas. © 2016 American Chemical Society. Fil:Bragas, A.V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_15306984_v16_n2_p1428_DellaPicca |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Coherent acoustic phonon gold-silica nanoantenna hypersound nanoresonator pump-probe Gold Lattice vibrations Metamaterial antennas Phonons Plasmons Probes Silica Ultrashort pulses Vibrations (mechanical) Coherent acoustic phonons Electronic relaxation Hypersound Mechanical constraints Mechanical oscillations nanoresonator Plasmonic nanostructures Pump probe Nanoantennas |
spellingShingle |
Coherent acoustic phonon gold-silica nanoantenna hypersound nanoresonator pump-probe Gold Lattice vibrations Metamaterial antennas Phonons Plasmons Probes Silica Ultrashort pulses Vibrations (mechanical) Coherent acoustic phonons Electronic relaxation Hypersound Mechanical constraints Mechanical oscillations nanoresonator Plasmonic nanostructures Pump probe Nanoantennas Della Picca, F. Berte, R. Rahmani, M. Albella, P. Bujjamer, J.M. Poblet, M. Cortés, E. Maier, S.A. Bragas, A.V. Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
topic_facet |
Coherent acoustic phonon gold-silica nanoantenna hypersound nanoresonator pump-probe Gold Lattice vibrations Metamaterial antennas Phonons Plasmons Probes Silica Ultrashort pulses Vibrations (mechanical) Coherent acoustic phonons Electronic relaxation Hypersound Mechanical constraints Mechanical oscillations nanoresonator Plasmonic nanostructures Pump probe Nanoantennas |
description |
Ultrashort laser pulses impinging on a plasmonic nanostructure trigger a highly dynamic scenario in the interplay of electronic relaxation with lattice vibrations, which can be experimentally probed via the generation of coherent phonons. In this Letter, we present studies of hypersound generation in the range of a few to tens of gigahertz on single gold plasmonic nanoantennas, which have additionally been subjected to predesigned mechanical constraints via silica bridges. Using these hybrid gold/silica nanoantennas, we demonstrate experimentally and via numerical simulations how mechanical constraints allow control over their vibrational mode spectrum. Degenerate pump-probe techniques with double modulation are performed in order to detect the small changes produced in the probe transmission by the mechanical oscillations of these single nanoantennas. © 2016 American Chemical Society. |
format |
JOUR |
author |
Della Picca, F. Berte, R. Rahmani, M. Albella, P. Bujjamer, J.M. Poblet, M. Cortés, E. Maier, S.A. Bragas, A.V. |
author_facet |
Della Picca, F. Berte, R. Rahmani, M. Albella, P. Bujjamer, J.M. Poblet, M. Cortés, E. Maier, S.A. Bragas, A.V. |
author_sort |
Della Picca, F. |
title |
Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
title_short |
Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
title_full |
Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
title_fullStr |
Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
title_full_unstemmed |
Tailored Hypersound Generation in Single Plasmonic Nanoantennas |
title_sort |
tailored hypersound generation in single plasmonic nanoantennas |
url |
http://hdl.handle.net/20.500.12110/paper_15306984_v16_n2_p1428_DellaPicca |
work_keys_str_mv |
AT dellapiccaf tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT berter tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT rahmanim tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT albellap tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT bujjamerjm tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT pobletm tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT cortese tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT maiersa tailoredhypersoundgenerationinsingleplasmonicnanoantennas AT bragasav tailoredhypersoundgenerationinsingleplasmonicnanoantennas |
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1782030673752621056 |