Acta Physica Sinica, Volume. 69, Issue 10, 107801-1(2020)
Fig. 1. Schematic of the IBIL experimental setup on BNU400 ion implanter
Fig. 2. SRIM calculation of 100 keV H+, He+ and O+ stopping power in lithium fluoride
Fig. 3. Emission intensity as function of both fluence and wavelength obtained under 100 keV H+
Fig. 4. Evolutions of the luminescence peak intensities at 296, 340, 400 nm with the irradiation fluence under 100 keV H+
Fig. 5. Evolutions of the luminescence peak intensities at 540, 670, 880 nm with the irradiation fluence under 100 keV H+
Fig. 6. Evolutions of the luminescence peak intensities at 296, 340, 400 nm with the irradiation fluence under 100 keV He+
Fig. 7. Evolutions of the luminescence peak intensities at 540, 670, 880 nm with the irradiation fluence under 100 keV He+
Fig. 8. Evolutions of the luminescence peak intensities at 296, 340, 400 nm with the irradiation fluence under 100 keV O+
Fig. 9. Evolutions of the luminescence peak intensities at 540, 670, 880 nm with the irradiation fluence under 100 keV O+
Comparisons of lithium fluoride under 100 keV H+, He+ and O+
100 keV的H+、He+和O+3种离子辐照氟化锂材料的结果对比
Comparisons of lithium fluoride under 100 keV H+, He+ and O+
100 keV的H+、He+和O+3种离子辐照氟化锂材料的结果对比
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Meng-lin Qiu, Guo-qiang Zhao, Ting-shun Wang, Chang-wei Luo, Guang-fu Wang, Feng-shou Zhang, Sha-sha Lv, Bin Liao.
Received: Jan. 3, 2020
Accepted: --
Published Online: Nov. 30, 2020
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