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The potential application of ultra-nanocrystalline diamond films for heavy ion irradiation detection

Author(s): Huang-Chin Chen | Shih-Show Chen | Wei-Cheng Wang | Chi-Young Lee | Jinghua Guo | I-Nan Lin | Ching-Lin Chang

Journal: AIP Advances
ISSN 2158-3226

Volume: 3;
Issue: 6;
Start page: 062113;
Date: 2013;
Original page

The potential of utilizing the ultra-nanocrystalline (UNCD) films for detecting the Au-ion irradiation was investigated. When the fluence for Au-ion irradiation is lower than the critical value (fc = 5.0 × 1012 ions/cm2) the turn-on field for electron field emission (EFE) process of the UNCD films decreased systematically with the increase in fluence that is correlated with the increase in sp2-bonded phase (π*-band in EELS) due to the Au-ion irradiation. The EFE properties changed irregularly, when the fluence for Au-ion irradiation exceeds this critical value. The transmission electron microscopic microstructural examinations, in conjunction with EELS spectroscopic studies, reveal that the structural change preferentially occurred in the diamond-to-Si interface for the samples experienced over critical fluence of Au-ion irradiation, viz. the crystalline SiC phase was induced in the interfacial region and the thickness of the interface decreased. These observations implied that the UNCD films could be used as irradiation detectors when the fluence for Au-ion irradiation does not exceed such a critical value.
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