2015
DOI: 10.1021/acs.nanolett.5b00759
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Atomistic Near-Field Nanoplasmonics: Reaching Atomic-Scale Resolution in Nanooptics

Abstract: Electromagnetic field localization in nanoantennas is one of the leitmotivs that drives the development of plasmonics. The near-fields in these plasmonic nanoantennas are commonly addressed theoretically within classical frameworks that neglect atomic-scale features. This approach is often appropriate since the irregularities produced at the atomic scale are typically hidden in far-field optical spectroscopies. However, a variety of physical and chemical processes rely on the fine distribution of the local fie… Show more

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Cited by 290 publications
(369 citation statements)
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References 110 publications
(196 reference statements)
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“…(14) with s as the only adjustable parameter. The agreement with the model is excellent as shown in Figs 6,7,8,9, and 11(a). Our modeling of the electron-hole spectra contrasts with all previous attempts that do not consider the whole frequency range [5,21].…”
Section: B Spectral Response For Electronic Scatteringsupporting
confidence: 59%
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“…(14) with s as the only adjustable parameter. The agreement with the model is excellent as shown in Figs 6,7,8,9, and 11(a). Our modeling of the electron-hole spectra contrasts with all previous attempts that do not consider the whole frequency range [5,21].…”
Section: B Spectral Response For Electronic Scatteringsupporting
confidence: 59%
“…Its activation is thus always linked to the lack of translational invariance of the metallic surface and its spectral shape is governed by an associated spatial "size" D. Second, at thermal and electronic equilibrium, the spectral and temperature background dependence follows Bose statistics as any inelastic scattering process, as a consequence of the principle of detailed balance in thermodynamics. Third, if any absorption or emission process from real direct single electron-hole transitions can be excluded, the background shape of the signal presents a universal shape with an affine linear dependence at low frequency, a broad maximum and a slowly decreasing tail at high frequency [Figs 6,7,8,9, and 11(a)].…”
Section: E Plasmon-resonant Raman Scattering Versus Hot Luminescencementioning
confidence: 99%
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“…Also, the energy can be accumulated at other sharp features of the nanoparticle (i.e. away from the mirror), 5 which eventually leads to a smoother (less faceted) nanoparticle (see SEM of Fig. S2b,c).…”
Section: (G) Facet Growth and Energy Absorption Under Uv-illuminationmentioning
confidence: 99%
“…The conclusions derived from the JM calculations have been later confirmed by the experimental data 40,[66][67][68][69] , and ab-initio calculations at a full atomistic level [70][71][72] .…”
Section: A Model Systemmentioning
confidence: 55%