Optical Near-Field Electron Microscopy

Raphaël Marchand; Radek Šachl; Martin Kalbáč; Martin Hof; Rudolf Tromp; Mariana Amaro; Sense J. van der Molen; Thomas Juffmann

doi:10.1103/PhysRevApplied.16.014008

Optical Near-Field Electron Microscopy

Raphaël Marchand, Radek Šachl, Martin Kalbáč, Martin Hof, Rudolf Tromp, Mariana Amaro, Sense J. van der Molen, Thomas Juffmann (Korresp. Autor*in)

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

The imaging of dynamical processes at interfaces and on the nanoscale is of great importance throughout science and technology. While light-optical imaging techniques often cannot provide the necessary spatial resolution, electron-optical techniques damage the specimen and cause dose-induced artifacts. Here, optical near-field electron microscopy (ONEM) is proposed, an imaging technique that combines noninvasive probing with light, with a high-spatial-resolution readout via electron optics. Close to the specimen, the optical near fields are converted into a spatially varying electron flux using a planar photocathode. The electron flux is imaged using low-energy electron microscopy, enabling label-free nanometric resolution without the need to scan a probe across the sample. The specimen is never exposed to damaging electrons.

Originalsprache	Englisch
Aufsatznummer	014008
Seitenumfang	8
Fachzeitschrift	Physical Review Applied
Jahrgang	16
Ausgabenummer	1
DOIs	https://doi.org/10.1103/PhysRevApplied.16.014008
Publikationsstatus	Veröffentlicht - 6 Juli 2021

ÖFOS 2012

103042 Elektronenmikroskopie
103021 Optik
103018 Materialphysik

Zugriff auf Dokument

10.1103/PhysRevApplied.16.014008

https://arxiv.org/abs/2102.13010Lizenz: CC BY-NC-ND 4.0

Andere Dateien und Links

Verknüpfung zur Publikation in Scopus

1 Laufend
2 Abgeschlossen

ONEM: Optical Near-field Electron Microscopy
Juffmann, T.
1/01/21 → 31/12/25
Projekt: Forschungsförderung
VIP-2 Vienna International Postdoctoral Program
Marchand, R. & Juffmann, T.
7/01/20 → 6/10/22
Projekt: Forschungsförderung
MicroMOUPE: Microscopy - Making optimal use of photons and electrons
Juffmann, T. & Paulovics, V.
1/03/18 → 31/08/23
Projekt: Forschungsförderung

Zitationsweisen

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abstract = "The imaging of dynamical processes at interfaces and on the nanoscale is of great importance throughout science and technology. While light-optical imaging techniques often cannot provide the necessary spatial resolution, electron-optical techniques damage the specimen and cause dose-induced artifacts. Here, optical near-field electron microscopy (ONEM) is proposed, an imaging technique that combines noninvasive probing with light, with a high-spatial-resolution readout via electron optics. Close to the specimen, the optical near fields are converted into a spatially varying electron flux using a planar photocathode. The electron flux is imaged using low-energy electron microscopy, enabling label-free nanometric resolution without the need to scan a probe across the sample. The specimen is never exposed to damaging electrons.",

author = "Rapha{\"e}l Marchand and Radek {\v S}achl and Martin Kalb{\'a}{\v c} and Martin Hof and Rudolf Tromp and Mariana Amaro and {van der Molen}, {Sense J.} and Thomas Juffmann",

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AU - Marchand, Raphaël

AU - Šachl, Radek

AU - Kalbáč, Martin

AU - Hof, Martin

AU - Tromp, Rudolf

AU - Amaro, Mariana

AU - van der Molen, Sense J.

AU - Juffmann, Thomas

PY - 2021/7/6

Y1 - 2021/7/6

N2 - The imaging of dynamical processes at interfaces and on the nanoscale is of great importance throughout science and technology. While light-optical imaging techniques often cannot provide the necessary spatial resolution, electron-optical techniques damage the specimen and cause dose-induced artifacts. Here, optical near-field electron microscopy (ONEM) is proposed, an imaging technique that combines noninvasive probing with light, with a high-spatial-resolution readout via electron optics. Close to the specimen, the optical near fields are converted into a spatially varying electron flux using a planar photocathode. The electron flux is imaged using low-energy electron microscopy, enabling label-free nanometric resolution without the need to scan a probe across the sample. The specimen is never exposed to damaging electrons.

AB - The imaging of dynamical processes at interfaces and on the nanoscale is of great importance throughout science and technology. While light-optical imaging techniques often cannot provide the necessary spatial resolution, electron-optical techniques damage the specimen and cause dose-induced artifacts. Here, optical near-field electron microscopy (ONEM) is proposed, an imaging technique that combines noninvasive probing with light, with a high-spatial-resolution readout via electron optics. Close to the specimen, the optical near fields are converted into a spatially varying electron flux using a planar photocathode. The electron flux is imaged using low-energy electron microscopy, enabling label-free nanometric resolution without the need to scan a probe across the sample. The specimen is never exposed to damaging electrons.

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DO - 10.1103/PhysRevApplied.16.014008

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Optical Near-Field Electron Microscopy

Abstract

ÖFOS 2012

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

ONEM: Optical Near-field Electron Microscopy

VIP-2 Vienna International Postdoctoral Program

MicroMOUPE: Microscopy - Making optimal use of photons and electrons

Zitationsweisen