Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal
Само за регистроване кориснике
2000
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The theory of crystal rainbows is presented. It enables the generation and full explanation of the angular distribution of ions transmitted through thin crystals. The angular distribution of the transmitted ions is generated by the computer simulation method. Then, the rainbow lines in the scattering angle plane are determined. These lines ensure the full explanation of the angular distribution. The theory is applied to the transmission of Ne10+ ions through a (100) Si thin crystal. The ion energy is 60 MeV and the crystal thickness is varied from 105 to 632 atomic layers, i.e., from the beginning of the first rainbow cycle to the beginning of the second rainbow cycle.
Извор:
Physical Review B: Condensed Matter and Materials Physics, 2000, 61, 1, 184-189
DOI: 10.1103/PhysRevB.61.184
ISSN: 1098-0121; 1550-235X
WoS: 000085281400038
Scopus: 2-s2.0-0001313043
Институција/група
VinčaTY - JOUR AU - Petrović, Srđan M. AU - Miletić, L. AU - Nešković, Nebojša B. PY - 2000 UR - https://vinar.vin.bg.ac.rs/handle/123456789/2324 AB - The theory of crystal rainbows is presented. It enables the generation and full explanation of the angular distribution of ions transmitted through thin crystals. The angular distribution of the transmitted ions is generated by the computer simulation method. Then, the rainbow lines in the scattering angle plane are determined. These lines ensure the full explanation of the angular distribution. The theory is applied to the transmission of Ne10+ ions through a (100) Si thin crystal. The ion energy is 60 MeV and the crystal thickness is varied from 105 to 632 atomic layers, i.e., from the beginning of the first rainbow cycle to the beginning of the second rainbow cycle. T2 - Physical Review B: Condensed Matter and Materials Physics T1 - Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal VL - 61 IS - 1 SP - 184 EP - 189 DO - 10.1103/PhysRevB.61.184 ER -
@article{ author = "Petrović, Srđan M. and Miletić, L. and Nešković, Nebojša B.", year = "2000", abstract = "The theory of crystal rainbows is presented. It enables the generation and full explanation of the angular distribution of ions transmitted through thin crystals. The angular distribution of the transmitted ions is generated by the computer simulation method. Then, the rainbow lines in the scattering angle plane are determined. These lines ensure the full explanation of the angular distribution. The theory is applied to the transmission of Ne10+ ions through a (100) Si thin crystal. The ion energy is 60 MeV and the crystal thickness is varied from 105 to 632 atomic layers, i.e., from the beginning of the first rainbow cycle to the beginning of the second rainbow cycle.", journal = "Physical Review B: Condensed Matter and Materials Physics", title = "Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal", volume = "61", number = "1", pages = "184-189", doi = "10.1103/PhysRevB.61.184" }
Petrović, S. M., Miletić, L.,& Nešković, N. B.. (2000). Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal. in Physical Review B: Condensed Matter and Materials Physics, 61(1), 184-189. https://doi.org/10.1103/PhysRevB.61.184
Petrović SM, Miletić L, Nešković NB. Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal. in Physical Review B: Condensed Matter and Materials Physics. 2000;61(1):184-189. doi:10.1103/PhysRevB.61.184 .
Petrović, Srđan M., Miletić, L., Nešković, Nebojša B., "Theory of rainbows in thin crystals: The explanation of ion channeling applied to Ne10+ ions transmitted through a LT 100 GT Si thin crystal" in Physical Review B: Condensed Matter and Materials Physics, 61, no. 1 (2000):184-189, https://doi.org/10.1103/PhysRevB.61.184 . .