Momentum and energy dissipation of hot electrons in a Pb/Ag(111) quantum well system

The band structure of multilayer systems plays a crucial role for the ultrafast hot carrier dynamics at interfaces. Here, we study the energy- and momentum-dependent quasiparticle lifetimes of excited electrons in a highly ordered Pb monolayer film on Ag(111) prior and after the adsorption of a mono...

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Veröffentlicht in:	Physical review. B 2021-09, Vol.104 (10), p.1, Article 104308
Hauptverfasser:	Haag, Florian, Eul, Tobias, Grad, Lisa, Haag, Norman, Knippertz, Johannes, Mathias, Stefan, Cinchetti, Mirko, Aeschlimann, Martin, Stadtmüller, Benjamin
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Sprache:	eng
Schlagworte:	Adsorption Band structure of solids Bilayers Elementary excitations Energy dissipation Femtosecond pulses Hot electrons Momentum Monolayers Multilayers Organic chemistry Quantum wells Refilling Scattering Silver
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creator	Haag, Florian Eul, Tobias Grad, Lisa Haag, Norman Knippertz, Johannes Mathias, Stefan Cinchetti, Mirko Aeschlimann, Martin Stadtmüller, Benjamin
description	The band structure of multilayer systems plays a crucial role for the ultrafast hot carrier dynamics at interfaces. Here, we study the energy- and momentum-dependent quasiparticle lifetimes of excited electrons in a highly ordered Pb monolayer film on Ag(111) prior and after the adsorption of a monolayer of 3,4,9,10-perylene-tetracarboxylic dianhydride (PTCDA). Using time-resolved two-photon momentum microscopy with femtosecond visible light pulses, we show that the electron dynamics of the Pb/Ag(111) quantum well system is largely dominated by two types of scattering processes: (i) isotropic intraband scattering processes within the quantum well state (QWS) and (ii) isotropic interband scattering processes from the p z -like QWS into the Pb px/y band. In the latter case, the Pb QWS acts as an electron source for the momentum space refilling process of the Pb px/y band. This conclusion is confirmed by the modification of the band structure and the quasiparticle dynamics of the Pb/Ag(111) bilayer film after the adsorption of PTCDA. We find both an adsorption-induced suppression of the QWS itself as well as of the refilling process into the Pb px/y band. Our study hence demonstrates the isotropic nature of the momentum-dependent scattering processes of metallic bilayer systems and uncovers a new possibility to selectively tune and control scattering processes occurring in quantum (well) materials by the adsorption of organic molecules.
doi_str_mv	10.1103/PhysRevB.104.104308
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We find both an adsorption-induced suppression of the QWS itself as well as of the refilling process into the Pb px/y band. Our study hence demonstrates the isotropic nature of the momentum-dependent scattering processes of metallic bilayer systems and uncovers a new possibility to selectively tune and control scattering processes occurring in quantum (well) materials by the adsorption of organic molecules.</description><identifier>ISSN: 2469-9950</identifier><identifier>EISSN: 2469-9969</identifier><identifier>DOI: 10.1103/PhysRevB.104.104308</identifier><language>eng</language><publisher>College Park: American Physical Society</publisher><subject>Adsorption ; Band structure of solids ; Bilayers ; Elementary excitations ; Energy dissipation ; Femtosecond pulses ; Hot electrons ; Momentum ; Monolayers ; Multilayers ; Organic chemistry ; Quantum wells ; Refilling ; Scattering ; Silver</subject><ispartof>Physical review. 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subjects	Adsorption Band structure of solids Bilayers Elementary excitations Energy dissipation Femtosecond pulses Hot electrons Momentum Monolayers Multilayers Organic chemistry Quantum wells Refilling Scattering Silver
title	Momentum and energy dissipation of hot electrons in a Pb/Ag(111) quantum well system
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