Surface nanostructuring of SrTiO3 single crystals by slow highly charged ions and swift heavy ions

A. S. El-Said; R. A. Wilhelm; R. Heller; S. Facsko; C. Trautmann; F. Aumayr

doi:10.1016/j.nimb.2010.10.020

Surface nanostructuring of SrTiO₃ single crystals by slow highly charged ions and swift heavy ions

A. S. El-Said, R. A. Wilhelm, R. Heller, S. Facsko, C. Trautmann, F. Aumayr^*

^*Corresponding author for this work

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

28 Scopus citations

Abstract

Single crystals of strontium titanate have been irradiated with both slow highly charged Xe ions extracted from an Electron Beam Ion Trap and swift heavy Xe ions. After irradiation, the crystals were investigated by scanning force microscopy in air. In both cases nanohillocks due to impact of individual projectiles were observed. This similarity originates from the fact that both swift heavy ions and slow highly charged ions initially transfer their energy to the electronic system of the target, leading to a localized region of high electronic excitation. This electronic excitation is subsequently transferred to the lattice atoms by electron-phonon coupling, leading to pronounced lattice heating. The formation of surface hillocks can then be ascribed to a melting process. We also present first evidence for the existence of a potential energy threshold for nanohillock formation on strontium titanate surfaces by slow highly charged ions.

Original language	English
Pages (from-to)	1234-1237
Number of pages	4
Journal	Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
Volume	269
Issue number	11
DOIs	https://doi.org/10.1016/j.nimb.2010.10.020
State	Published - 1 Jun 2011

Bibliographical note

Funding Information:
A. S. El-Said is grateful to the Alexander von Humboldt Foundation for providing a research fellowship. This work has been also supported by the European project ITS LEIF (No. RII3/026015 ), Austrian FWF and by KFUPM .

Keywords

Highly charged ions
Ion-surface-interaction
Nanostructures
Scanning force microscopy
SrTiO
Strontium titanate

ASJC Scopus subject areas

Nuclear and High Energy Physics
Instrumentation

Access to Document

10.1016/j.nimb.2010.10.020

Cite this

@article{ffaa909539d6437f95d5cabdc7b09b1d,

title = "Surface nanostructuring of SrTiO3 single crystals by slow highly charged ions and swift heavy ions",

abstract = "Single crystals of strontium titanate have been irradiated with both slow highly charged Xe ions extracted from an Electron Beam Ion Trap and swift heavy Xe ions. After irradiation, the crystals were investigated by scanning force microscopy in air. In both cases nanohillocks due to impact of individual projectiles were observed. This similarity originates from the fact that both swift heavy ions and slow highly charged ions initially transfer their energy to the electronic system of the target, leading to a localized region of high electronic excitation. This electronic excitation is subsequently transferred to the lattice atoms by electron-phonon coupling, leading to pronounced lattice heating. The formation of surface hillocks can then be ascribed to a melting process. We also present first evidence for the existence of a potential energy threshold for nanohillock formation on strontium titanate surfaces by slow highly charged ions.",

keywords = "Highly charged ions, Ion-surface-interaction, Nanostructures, Scanning force microscopy, SrTiO, Strontium titanate",

author = "El-Said, \{A. S.\} and Wilhelm, \{R. A.\} and R. Heller and S. Facsko and C. Trautmann and F. Aumayr",

note = "Funding Information: A. S. El-Said is grateful to the Alexander von Humboldt Foundation for providing a research fellowship. This work has been also supported by the European project ITS LEIF (No. RII3/026015 ), Austrian FWF and by KFUPM .",

year = "2011",

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doi = "10.1016/j.nimb.2010.10.020",

language = "English",

volume = "269",

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journal = "Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms",

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Surface nanostructuring of SrTiO₃ single crystals by slow highly charged ions and swift heavy ions. / El-Said, A. S.; Wilhelm, R. A.; Heller, R. et al.
In: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, Vol. 269, No. 11, 01.06.2011, p. 1234-1237.

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

TY - JOUR

T1 - Surface nanostructuring of SrTiO3 single crystals by slow highly charged ions and swift heavy ions

AU - El-Said, A. S.

AU - Wilhelm, R. A.

AU - Heller, R.

AU - Facsko, S.

AU - Trautmann, C.

AU - Aumayr, F.

N1 - Funding Information: A. S. El-Said is grateful to the Alexander von Humboldt Foundation for providing a research fellowship. This work has been also supported by the European project ITS LEIF (No. RII3/026015 ), Austrian FWF and by KFUPM .

PY - 2011/6/1

Y1 - 2011/6/1

N2 - Single crystals of strontium titanate have been irradiated with both slow highly charged Xe ions extracted from an Electron Beam Ion Trap and swift heavy Xe ions. After irradiation, the crystals were investigated by scanning force microscopy in air. In both cases nanohillocks due to impact of individual projectiles were observed. This similarity originates from the fact that both swift heavy ions and slow highly charged ions initially transfer their energy to the electronic system of the target, leading to a localized region of high electronic excitation. This electronic excitation is subsequently transferred to the lattice atoms by electron-phonon coupling, leading to pronounced lattice heating. The formation of surface hillocks can then be ascribed to a melting process. We also present first evidence for the existence of a potential energy threshold for nanohillock formation on strontium titanate surfaces by slow highly charged ions.

AB - Single crystals of strontium titanate have been irradiated with both slow highly charged Xe ions extracted from an Electron Beam Ion Trap and swift heavy Xe ions. After irradiation, the crystals were investigated by scanning force microscopy in air. In both cases nanohillocks due to impact of individual projectiles were observed. This similarity originates from the fact that both swift heavy ions and slow highly charged ions initially transfer their energy to the electronic system of the target, leading to a localized region of high electronic excitation. This electronic excitation is subsequently transferred to the lattice atoms by electron-phonon coupling, leading to pronounced lattice heating. The formation of surface hillocks can then be ascribed to a melting process. We also present first evidence for the existence of a potential energy threshold for nanohillock formation on strontium titanate surfaces by slow highly charged ions.

KW - Highly charged ions

KW - Ion-surface-interaction

KW - Nanostructures

KW - Scanning force microscopy

KW - SrTiO

KW - Strontium titanate

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