Single atom spectroscopy: Decreased scattering delocalization at high energy losses, effects of atomic movement and X-ray fluorescence yield

Single atom spectroscopy: Decreased scattering delocalization at high energy losses, effects of atomic movement and X-ray fluorescence yield

Single atom localization and identification is crucial in understanding effects which depend on the specific local environment of atoms. In advanced nanometer scale materials, the characteristics of individual atoms may play an important role. Here, we describe spectroscopic experiments (electron en...

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Veröffentlicht in:Ultramicroscopy 2016-01, Vol.160, p.239-246
Hauptverfasser: Tizei, Luiz H.G., Iizumi, Yoko, Okazaki, Toshiya, Nakanishi, Ryo, Kitaura, Ryo, Shinohara, Hisanori, Suenaga, Kazu
Format: Artikel
Sprache:eng
Schlagworte:
Atomic beam spectroscopy
EDX
EELS
Electron energy
Electron energy loss spectroscopy
Energy use
Nanostructure
Position (location)
Single atoms
Spectroscopy
STEM
X-rays
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Beschreibung
Zusammenfassung:Single atom localization and identification is crucial in understanding effects which depend on the specific local environment of atoms. In advanced nanometer scale materials, the characteristics of individual atoms may play an important role. Here, we describe spectroscopic experiments (electron energy loss spectroscopy, EELS, and Energy Dispersed X-ray spectroscopy, EDX) using a low voltage transmission electron microscope designed towards single atom analysis. For EELS, we discuss the advantages of using lower primary electron energy (30keV and 60keV) and higher energy losses (above 800eV). The effect of atomic movement is considered. Finally, we discuss the possibility of using atomically resolved EELS and EDX data to measure the fluorescence yield for X-ray emission.
ISSN:0304-3991
1879-2723
DOI:10.1016/j.ultramic.2015.10.019