Enhancement of electron hot spot relaxation in photoexcited plasmonic structures by thermal diffusion

We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can provide relaxation faster than the energy transfer to the lattice. This relaxation occurs due to excitation of nanometer-sized hot spots in the confined structure and the...

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Published in	arXiv.org
Main Authors	Spitzer, F, Glavin, B A, Belotelov, V I, Vondran, J, Akimov, I A, Kasture, S, Achanta, V G, Yakovlev, D R, Bayer, M
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 13.05.2016
Subjects	Diffusion rate Energy transfer Excitation Gold Lattices Parameter sensitivity Physics - Materials Science Physics - Optics Thermal diffusion Ultrafast lasers
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Abstract	We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can provide relaxation faster than the energy transfer to the lattice. This relaxation occurs due to excitation of nanometer-sized hot spots in the confined structure and the sensitivity of its optical parameters to the perturbation in these regions. Both factors become essential when the plasmonic resonance condition is met for both excitation and detection. A pump-probe experiment on plasmonic gold lattices shows sub-picosecond relaxation with the characteristic times well-described by a two-temperature model. The results suggest that dynamical optical response in plasmonic structures can be tuned by selection of the structural geometry as well as the choice of wavelength and polarization of the excitation and detection light.
AbstractList	Phys. Rev. B 94, 201118 (2016) We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can provide relaxation faster than the energy transfer to the lattice. This relaxation occurs due to excitation of nanometer-sized hot spots in the confined structure and the sensitivity of its optical parameters to the perturbation in these regions. Both factors become essential when the plasmonic resonance condition is met for both excitation and detection. A pump-probe experiment on plasmonic gold lattices shows sub-picosecond relaxation with the characteristic times well-described by a two-temperature model. The results suggest that dynamical optical response in plasmonic structures can be tuned by selection of the structural geometry as well as the choice of wavelength and polarization of the excitation and detection light. We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can provide relaxation faster than the energy transfer to the lattice. This relaxation occurs due to excitation of nanometer-sized hot spots in the confined structure and the sensitivity of its optical parameters to the perturbation in these regions. Both factors become essential when the plasmonic resonance condition is met for both excitation and detection. A pump-probe experiment on plasmonic gold lattices shows sub-picosecond relaxation with the characteristic times well-described by a two-temperature model. The results suggest that dynamical optical response in plasmonic structures can be tuned by selection of the structural geometry as well as the choice of wavelength and polarization of the excitation and detection light.
Author	Glavin, B A Akimov, I A Spitzer, F Belotelov, V I Kasture, S Bayer, M Vondran, J Yakovlev, D R Achanta, V G
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BackLink	https://doi.org/10.48550/arXiv.1605.04101$$DView paper in arXiv https://doi.org/10.1103/PhysRevB.94.201118$$DView published paper (Access to full text may be restricted)
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Snippet	We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can provide relaxation faster than... Phys. Rev. B 94, 201118 (2016) We demonstrate that in confined plasmonic metal structures subject to ultra-fast laser excitation electron thermal diffusion can...
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SubjectTerms	Diffusion rate Energy transfer Excitation Gold Lattices Parameter sensitivity Physics - Materials Science Physics - Optics Thermal diffusion Ultrafast lasers
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Title	Enhancement of electron hot spot relaxation in photoexcited plasmonic structures by thermal diffusion
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