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Autori principali: Niggas, Anna, Hao, Maosheng, Richter, Peter, Simperl, Florian, Blödorn, Felix, Cap, Melvin, Kero, Johannes, Hofmann, David, Bellissimo, Alessandra, Burgdörfer, Joachim, Seyller, Thomas, Wilhelm, Richard A, Libisch, Florian, Werner, Wolfgang S M
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.06228
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author Niggas, Anna
Hao, Maosheng
Richter, Peter
Simperl, Florian
Blödorn, Felix
Cap, Melvin
Kero, Johannes
Hofmann, David
Bellissimo, Alessandra
Burgdörfer, Joachim
Seyller, Thomas
Wilhelm, Richard A
Libisch, Florian
Werner, Wolfgang S M
author_facet Niggas, Anna
Hao, Maosheng
Richter, Peter
Simperl, Florian
Blödorn, Felix
Cap, Melvin
Kero, Johannes
Hofmann, David
Bellissimo, Alessandra
Burgdörfer, Joachim
Seyller, Thomas
Wilhelm, Richard A
Libisch, Florian
Werner, Wolfgang S M
contents We investigate the secondary low-energy electron emission induced by inelastic electron scattering from graphene and layered materials thereof. By applying a coincidence detection of the primary scattered and the emitted secondary electron we unravel pronounced resonance features otherwise overshadowed by the largely structureless secondary electron energy distribution. Supported by density functional theory calculations we show that these structures are the signature of prominent Feshbach resonances above the vacuum threshold which originate from interlayer states acting as a doorway state for electron emission. Remarkably, some of these doorway states open up only for samples with more than five layers.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06228
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Identifying Electronic Doorway States in the Secondary Electron Emission from Layered Materials
Niggas, Anna
Hao, Maosheng
Richter, Peter
Simperl, Florian
Blödorn, Felix
Cap, Melvin
Kero, Johannes
Hofmann, David
Bellissimo, Alessandra
Burgdörfer, Joachim
Seyller, Thomas
Wilhelm, Richard A
Libisch, Florian
Werner, Wolfgang S M
Mesoscale and Nanoscale Physics
Materials Science
Strongly Correlated Electrons
We investigate the secondary low-energy electron emission induced by inelastic electron scattering from graphene and layered materials thereof. By applying a coincidence detection of the primary scattered and the emitted secondary electron we unravel pronounced resonance features otherwise overshadowed by the largely structureless secondary electron energy distribution. Supported by density functional theory calculations we show that these structures are the signature of prominent Feshbach resonances above the vacuum threshold which originate from interlayer states acting as a doorway state for electron emission. Remarkably, some of these doorway states open up only for samples with more than five layers.
title Identifying Electronic Doorway States in the Secondary Electron Emission from Layered Materials
topic Mesoscale and Nanoscale Physics
Materials Science
Strongly Correlated Electrons
url https://arxiv.org/abs/2501.06228