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Nanoscale electron pulses are increasingly in demand, including as probes of nanoscale ultrafast dynamics and for emerging light source and lithography applications. Using electromagnetic simulations, we show that gold plasmonic lenses as multiphoton photoemitters provide unique advantages, including emission from an atomically at surface, nanoscale pulse diameter regardless of laser spot size, and femtosecond-scale response time. We then present fabrication of prototypes with sub-nm roughness via e-beam lithography, as well as electro-optical characterization using cathodoluminescence spectromicroscopy. Finally, we introduce a DC photogun at LBNL built for testing ultrafast photoemitters. We discuss measurement considerations for ultrafast nanoemitters and predict that we can extract tens of pA photocurrent from a single plasmonic lens using a Ti:Sa oscillator. Altogether, this lays the groundwork to develop and test a broad class of plasmon-enhanced ultrafast nanoemitters.

Design and testing of ultrafast plasmonic lens nanoemitters / Durham, D. B.; Rotta Loria, S.; Riminucci, F.; Kanellopulos, K.; Shen, X.; Ciabattini, F.; Mostacci, A.; Musumeci, P.; Minor, A. M.; Cabrini, S.; Filippetto, D.. - 11462:(2020). (Intervento presentato al convegno Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVIII 2020 tenutosi a usa, online) [10.1117/12.2567540].

Design and testing of ultrafast plasmonic lens nanoemitters

Mostacci A.;
2020

Abstract

Nanoscale electron pulses are increasingly in demand, including as probes of nanoscale ultrafast dynamics and for emerging light source and lithography applications. Using electromagnetic simulations, we show that gold plasmonic lenses as multiphoton photoemitters provide unique advantages, including emission from an atomically at surface, nanoscale pulse diameter regardless of laser spot size, and femtosecond-scale response time. We then present fabrication of prototypes with sub-nm roughness via e-beam lithography, as well as electro-optical characterization using cathodoluminescence spectromicroscopy. Finally, we introduce a DC photogun at LBNL built for testing ultrafast photoemitters. We discuss measurement considerations for ultrafast nanoemitters and predict that we can extract tens of pA photocurrent from a single plasmonic lens using a Ti:Sa oscillator. Altogether, this lays the groundwork to develop and test a broad class of plasmon-enhanced ultrafast nanoemitters.
2020
Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVIII 2020
cathodoluminescence spectromicroscopy; electron-beam lithography; multiphoton photoemission; nanoplasmonics; Plasmon-enhanced photoemission; plasmonic lenses; ultrafast electron microscopy; ultrafast optics
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Design and testing of ultrafast plasmonic lens nanoemitters / Durham, D. B.; Rotta Loria, S.; Riminucci, F.; Kanellopulos, K.; Shen, X.; Ciabattini, F.; Mostacci, A.; Musumeci, P.; Minor, A. M.; Cabrini, S.; Filippetto, D.. - 11462:(2020). (Intervento presentato al convegno Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVIII 2020 tenutosi a usa, online) [10.1117/12.2567540].
04b Atto di convegno in volume
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1451855
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