2007
DOI: 10.1103/physrevlett.98.043907
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Localized Multiphoton Emission of Femtosecond Electron Pulses from Metal Nanotips

Abstract: Intense multiphoton electron emission is observed from sharp (approximately 20 nm radius) metallic tips illuminated with weak 100-pJ, 7-fs light pulses. Local field enhancement, evidenced by concurrent nonlinear light generation, confines the emission to the tip apex. Electrons are emitted from a highly excited nonequilibrium carrier distribution, resulting in a marked change of the absolute electron flux and its dependence on optical power with the tip bias voltage. The strong optical nonlinearity of the elec… Show more

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Cited by 380 publications
(433 citation statements)
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“…Applications are diverse and include surface enhanced Raman scattering [1,2], second [3,4] and third [5,6] harmonic generation, two-photon photoluminescence [59,60], continuum generation [61] or localized multiphoton photoemission [7,8]. Recently, even higher nonlinear effects such as above-threshold and strong-field photoemission and acceleration were observed in plasmonic and other nanostructures [12,62,63,17,15,64], closing the gap to strong-field and attosecond physics.…”
Section: Methodsmentioning
confidence: 99%
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“…Applications are diverse and include surface enhanced Raman scattering [1,2], second [3,4] and third [5,6] harmonic generation, two-photon photoluminescence [59,60], continuum generation [61] or localized multiphoton photoemission [7,8]. Recently, even higher nonlinear effects such as above-threshold and strong-field photoemission and acceleration were observed in plasmonic and other nanostructures [12,62,63,17,15,64], closing the gap to strong-field and attosecond physics.…”
Section: Methodsmentioning
confidence: 99%
“…7 Most likely, surface plasmon polaritons are induced at the inner walls of the hollow waveguide by an incident, linearly polarized light field and propagate towards the narrowed end of the taper (see Figs. 1.9(a) and 1.12).…”
Section: Tapered Hollow Waveguidesmentioning
confidence: 99%
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“…It allows for quantum coherent control of chemical reactions [2] on the nanoscale, quantum information processing, provides a tool for nano-photonic circuit analysis, and, with the high field compression, new avenues for extreme nonlinear optics such as higher harmonic generation [12] or femtosecond electron pulse generation [32].…”
mentioning
confidence: 99%
“…Recently, the optically induced emission of ultrafast electron bursts from single metallic nanostructures attracts substantial interest [1,2]. Due to the high-order nonlinearity of the emission process, such electron bursts are expected to have durations much shorter than a single field cycle.…”
Section: Introductionmentioning
confidence: 99%