Instrumental requirements for the detection of electron beam-induced object excitations at the single atom level in high-resolution transmission electron microscopy

C. Kisielowski; P. Specht; S. M. Gygax; B. Barton; H. A. Calderon; J. H. Kang; R. Cieslinski

doi:10.1016/j.micron.2014.07.010

Instrumental requirements for the detection of electron beam-induced object excitations at the single atom level in high-resolution transmission electron microscopy

C. Kisielowski, P. Specht, S. M. Gygax, B. Barton, H. A. Calderon, J. H. Kang, R. Cieslinski

Escuela Superior de Física y Matemáticas (ESFM)

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

This contribution touches on essential requirements for instrument stability and resolution that allows operating advanced electron microscopes at the edge to technological capabilities. They enable the detection of single atoms and their dynamic behavior on a length scale of picometers in real time. It is understood that the observed atom dynamic is intimately linked to the relaxation and thermalization of electron beam-induced sample excitation. Resulting contrast fluctuations are beam current dependent and largely contribute to a contrast mismatch between experiments and theory if not considered. If explored, they open the possibility to study functional behavior of nanocrystals and single molecules at the atomic level in real time.

Original language	English
Pages (from-to)	186-193
Number of pages	8
Journal	Micron
Volume	68
DOIs	https://doi.org/10.1016/j.micron.2014.07.010
State	Published - 1 Jan 2015

Keywords

Aberration-correction
Catalysis
Functionality
Low dose imaging
Single atom sensitivity
TEM

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title = "Instrumental requirements for the detection of electron beam-induced object excitations at the single atom level in high-resolution transmission electron microscopy",

abstract = "This contribution touches on essential requirements for instrument stability and resolution that allows operating advanced electron microscopes at the edge to technological capabilities. They enable the detection of single atoms and their dynamic behavior on a length scale of picometers in real time. It is understood that the observed atom dynamic is intimately linked to the relaxation and thermalization of electron beam-induced sample excitation. Resulting contrast fluctuations are beam current dependent and largely contribute to a contrast mismatch between experiments and theory if not considered. If explored, they open the possibility to study functional behavior of nanocrystals and single molecules at the atomic level in real time.",

keywords = "Aberration-correction, Catalysis, Functionality, Low dose imaging, Single atom sensitivity, TEM",

author = "C. Kisielowski and P. Specht and Gygax, {S. M.} and B. Barton and Calderon, {H. A.} and Kang, {J. H.} and R. Cieslinski",

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AU - Kisielowski, C.

AU - Specht, P.

AU - Gygax, S. M.

AU - Barton, B.

AU - Calderon, H. A.

AU - Kang, J. H.

AU - Cieslinski, R.

PY - 2015/1/1

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N2 - This contribution touches on essential requirements for instrument stability and resolution that allows operating advanced electron microscopes at the edge to technological capabilities. They enable the detection of single atoms and their dynamic behavior on a length scale of picometers in real time. It is understood that the observed atom dynamic is intimately linked to the relaxation and thermalization of electron beam-induced sample excitation. Resulting contrast fluctuations are beam current dependent and largely contribute to a contrast mismatch between experiments and theory if not considered. If explored, they open the possibility to study functional behavior of nanocrystals and single molecules at the atomic level in real time.

AB - This contribution touches on essential requirements for instrument stability and resolution that allows operating advanced electron microscopes at the edge to technological capabilities. They enable the detection of single atoms and their dynamic behavior on a length scale of picometers in real time. It is understood that the observed atom dynamic is intimately linked to the relaxation and thermalization of electron beam-induced sample excitation. Resulting contrast fluctuations are beam current dependent and largely contribute to a contrast mismatch between experiments and theory if not considered. If explored, they open the possibility to study functional behavior of nanocrystals and single molecules at the atomic level in real time.

KW - Aberration-correction

KW - Catalysis

KW - Functionality

KW - Low dose imaging

KW - Single atom sensitivity

KW - TEM

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SP - 186

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JO - Micron

JF - Micron

ER -

Instrumental requirements for the detection of electron beam-induced object excitations at the single atom level in high-resolution transmission electron microscopy

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Keywords

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