SAXS investigations of the morphology of swift heavy ion tracks in α-quartz

B. Afra; M. D. Rodriguez; C. Trautmann; O. H. Pakarinen; F. Djurabekova; K. Nordlund; T. Bierschenk; R. Giulian; M. C. Ridgway; G. Rizza; N. Kirby; M. Toulemonde; P. Kluth

doi:10.1088/0953-8984/25/4/045006

SAXS investigations of the morphology of swift heavy ion tracks in α-quartz

B. Afra^*, M. D. Rodriguez, C. Trautmann, O. H. Pakarinen, F. Djurabekova, K. Nordlund, T. Bierschenk, R. Giulian, M. C. Ridgway, G. Rizza, N. Kirby, M. Toulemonde, P. Kluth

^*Corresponding author for this work

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

46 Citations (Scopus)

Abstract

The morphology of swift heavy ion tracks in crystalline α-quartz was investigated using small angle x-ray scattering (SAXS), molecular dynamics (MD) simulations and transmission electron microscopy. Tracks were generated by irradiation with heavy ions with energies between 27 MeV and 2.2 GeV. The analysis of the SAXS data indicates a density change of the tracks of ∼2 ± 1% compared to the surrounding quartz matrix for all irradiation conditions. The track radii only show a weak dependence on the electronic energy loss at values above 17 keV nm^-1, in contrast to values previously reported from Rutherford backscattering spectrometry measurements and expectations from the inelastic thermal spike model. The MD simulations are in good agreement at low energy losses, yet predict larger radii than SAXS at high ion energies. The observed discrepancies are discussed with respect to the formation of a defective halo around an amorphous track core, the existence of high stresses and/or the possible presence of a boiling phase in quartz predicted by the inelastic thermal spike model.

Original language	English
Article number	045006
Journal	Journal of Physics Condensed Matter
Volume	25
Issue number	4
DOIs	https://doi.org/10.1088/0953-8984/25/4/045006
Publication status	Published - 30 Jan 2013

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Afra, B., Rodriguez, M. D., Trautmann, C., Pakarinen, O. H., Djurabekova, F., Nordlund, K., Bierschenk, T., Giulian, R., Ridgway, M. C., Rizza, G., Kirby, N., Toulemonde, M., & Kluth, P. (2013). SAXS investigations of the morphology of swift heavy ion tracks in α-quartz. Journal of Physics Condensed Matter, 25(4), Article 045006. https://doi.org/10.1088/0953-8984/25/4/045006

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abstract = "The morphology of swift heavy ion tracks in crystalline α-quartz was investigated using small angle x-ray scattering (SAXS), molecular dynamics (MD) simulations and transmission electron microscopy. Tracks were generated by irradiation with heavy ions with energies between 27 MeV and 2.2 GeV. The analysis of the SAXS data indicates a density change of the tracks of ∼2 ± 1% compared to the surrounding quartz matrix for all irradiation conditions. The track radii only show a weak dependence on the electronic energy loss at values above 17 keV nm-1, in contrast to values previously reported from Rutherford backscattering spectrometry measurements and expectations from the inelastic thermal spike model. The MD simulations are in good agreement at low energy losses, yet predict larger radii than SAXS at high ion energies. The observed discrepancies are discussed with respect to the formation of a defective halo around an amorphous track core, the existence of high stresses and/or the possible presence of a boiling phase in quartz predicted by the inelastic thermal spike model.",

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AU - Afra, B.

AU - Rodriguez, M. D.

AU - Trautmann, C.

AU - Pakarinen, O. H.

AU - Djurabekova, F.

AU - Nordlund, K.

AU - Bierschenk, T.

AU - Giulian, R.

AU - Ridgway, M. C.

AU - Rizza, G.

AU - Kirby, N.

AU - Toulemonde, M.

AU - Kluth, P.

PY - 2013/1/30

Y1 - 2013/1/30

N2 - The morphology of swift heavy ion tracks in crystalline α-quartz was investigated using small angle x-ray scattering (SAXS), molecular dynamics (MD) simulations and transmission electron microscopy. Tracks were generated by irradiation with heavy ions with energies between 27 MeV and 2.2 GeV. The analysis of the SAXS data indicates a density change of the tracks of ∼2 ± 1% compared to the surrounding quartz matrix for all irradiation conditions. The track radii only show a weak dependence on the electronic energy loss at values above 17 keV nm-1, in contrast to values previously reported from Rutherford backscattering spectrometry measurements and expectations from the inelastic thermal spike model. The MD simulations are in good agreement at low energy losses, yet predict larger radii than SAXS at high ion energies. The observed discrepancies are discussed with respect to the formation of a defective halo around an amorphous track core, the existence of high stresses and/or the possible presence of a boiling phase in quartz predicted by the inelastic thermal spike model.

AB - The morphology of swift heavy ion tracks in crystalline α-quartz was investigated using small angle x-ray scattering (SAXS), molecular dynamics (MD) simulations and transmission electron microscopy. Tracks were generated by irradiation with heavy ions with energies between 27 MeV and 2.2 GeV. The analysis of the SAXS data indicates a density change of the tracks of ∼2 ± 1% compared to the surrounding quartz matrix for all irradiation conditions. The track radii only show a weak dependence on the electronic energy loss at values above 17 keV nm-1, in contrast to values previously reported from Rutherford backscattering spectrometry measurements and expectations from the inelastic thermal spike model. The MD simulations are in good agreement at low energy losses, yet predict larger radii than SAXS at high ion energies. The observed discrepancies are discussed with respect to the formation of a defective halo around an amorphous track core, the existence of high stresses and/or the possible presence of a boiling phase in quartz predicted by the inelastic thermal spike model.

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DO - 10.1088/0953-8984/25/4/045006

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JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

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ER -

SAXS investigations of the morphology of swift heavy ion tracks in α-quartz

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