Effect of swift heavy ion irradiation in the migration behavior of Xe implanted into TiN
05 Mar 2019Please read abstract in the article.
| Authors: | Vasco, H.A., Hlatshwayo, Thulani Thokozani, Motloung, Setumo Victor, Mlambo, Mbuso, Mwankemwa, Benard S., Petrovic, Srdjan, Skuratov, Vladimir Alexeevich |
| Institution: | University of Pretoria |
| Keywords: | Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds, Irradiation, Raman spectroscopy, Spark plasma sintering (SPS), Swift heavy ion (SHI), Titanium nitride (TiN), Grain boundaries, Heavy ions, Ion bombardment, Ion implantation, Sintering, Xenon, De-trapping, Fluences, Grain-boundary diffusion, Irradiated samples, Vanadium compounds |