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Cathodoluminescence of synthetic zircon implanted by He+ ion

Yuta Tsuchiya

Yuta Tsuchiya

Department of Biosphere-Geosphere Science, Okayama University of ScienceOkayama, Japan
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Tsuchiya, Yuta
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Masahiro Kayama

Masahiro Kayama

Department of Earth and Planetary Material Sciences, Tohoku UniversitySendai, Japan
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Kayama, Masahiro
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Hirotsugu Nishido

Hirotsugu Nishido

Department of Biosphere-Geosphere Science, Okayama University of ScienceOkayama, Japan
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Nishido, Hirotsugu
 e 
Yousuke Noumi

Yousuke Noumi

Department of Biosphere-Geosphere Science, Okayama University of ScienceOkayama, Japan
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Noumi, Yousuke
  
01 giu 2017
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Categoria dell'articolo: Conference Proceedings of the 4Asia Pacific Luminescence and Electron Spin Resonance Dating Conference Nov 23-25, 2015, Adelaide, Australia
Pubblicato online: 01 giu 2017
Pagine: 129 - 135
Ricevuto: 14 mar 2016
Accettato: 20 gen 2017
DOI: https://doi.org/10.1515/geochr-2015-0054
Parole chiave
© 2016 Y. Tsuchiya.
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Figure 1

CL spectrum of synthetic zircon (SZ) after total instrumental correction operated at 0.1 nA in a scanning mode.
CL spectrum of synthetic zircon (SZ) after total instrumental correction operated at 0.1 nA in a scanning mode.

Figure 2

Deconvolution of the CL spectra in energy units obtained from SZ by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of blue one in the blue region and orange one in the yellow region; sum of the components by the red dotted line.
Deconvolution of the CL spectra in energy units obtained from SZ by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of blue one in the blue region and orange one in the yellow region; sum of the components by the red dotted line.

Figure 3

Color CL images of unimplanted (top) and He+ ion-implanted (bottom) SZ samples at 2.14×10–3 C/cm2.
Color CL images of unimplanted (top) and He+ ion-implanted (bottom) SZ samples at 2.14×10–3 C/cm2.

Figure 4

CL spectra of unimplanted and He+ ion-implanted SZ samples at 2.23×10–5 C/cm2 to 2.14×10–3 C/cm2.
CL spectra of unimplanted and He+ ion-implanted SZ samples at 2.23×10–5 C/cm2 to 2.14×10–3 C/cm2.

Figure 5

Spectral deconvolution of the CL spectra in energy units obtained from implanted samples at (a) He+ ion-implanted at 2.23×10–5 C/cm2 and (b) at 2.14×10–3 C/cm2 by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of blue one in the blue region and orange one in the yellow region; sum of the components by the red dotted line.
Spectral deconvolution of the CL spectra in energy units obtained from implanted samples at (a) He+ ion-implanted at 2.23×10–5 C/cm2 and (b) at 2.14×10–3 C/cm2 by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of blue one in the blue region and orange one in the yellow region; sum of the components by the red dotted line.

Figure 6

Spectral deconvolution of the CL spectra in energy units from Malawi zircon by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of green one for REE activations and orange one in the yellow region; sum of the components by the red dotted line.
Spectral deconvolution of the CL spectra in energy units from Malawi zircon by using a Gaussian curve fitting. Measured spectrum shown by a black solid line; deconvoluted components by broken lines of green one for REE activations and orange one in the yellow region; sum of the components by the red dotted line.

Figure 7

A plot of integral CL intensities of emission components at (a) 1.96 eV, (b) 2.16 eV and (c) 3.26 eV against radiation dose (C/cm2) for unimplanted and He+ ion-implanted samples at 2.23×10–5 C/cm2 to 2.14×10–3 C/cm2.
A plot of integral CL intensities of emission components at (a) 1.96 eV, (b) 2.16 eV and (c) 3.26 eV against radiation dose (C/cm2) for unimplanted and He+ ion-implanted samples at 2.23×10–5 C/cm2 to 2.14×10–3 C/cm2.
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