The Morphological analysis of the rainbow scattering effect in proton transmission through graphene
Апстракт
The main goal of our analysis is to show that the shape of the angular distributions can be used to study 2D materials. For this kind of systems, angular distributions contain lines along which large yield dominantly determine their shape. We focus on the relationship between the reduced interaction potential and the shape of the rainbow pattern. Metamorphoses of the rainbow pattern in the impact parameter plane were investigated and attributed to the bifurcations of the critical points of the rainbow line curvature. It will be shown that the impact parameter rainbow vertices are connected with the corresponding cusps of rainbows in the scattering angle plane, and their bifurcations will be analyzed in detail.
Извор:
ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings, 2023, 115-120Напомена:
- The XXVI International Conference on Ion-Surface Interactions; August 21-25, 2023, Yaroslavl, Russia
- XXVI Международная конференция Взаимодействие ионов с поверхностью «ВИП-2023»
Колекције
Институција/група
VinčaTY - CONF AU - Ćosić, Marko AU - Hadžijojić, Milivoje PY - 2023 UR - https://vinar.vin.bg.ac.rs/handle/123456789/12349 AB - The main goal of our analysis is to show that the shape of the angular distributions can be used to study 2D materials. For this kind of systems, angular distributions contain lines along which large yield dominantly determine their shape. We focus on the relationship between the reduced interaction potential and the shape of the rainbow pattern. Metamorphoses of the rainbow pattern in the impact parameter plane were investigated and attributed to the bifurcations of the critical points of the rainbow line curvature. It will be shown that the impact parameter rainbow vertices are connected with the corresponding cusps of rainbows in the scattering angle plane, and their bifurcations will be analyzed in detail. C3 - ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings T1 - The Morphological analysis of the rainbow scattering effect in proton transmission through graphene SP - 115 EP - 120 UR - https://hdl.handle.net/21.15107/rcub_vinar_12349 ER -
@conference{ author = "Ćosić, Marko and Hadžijojić, Milivoje", year = "2023", abstract = "The main goal of our analysis is to show that the shape of the angular distributions can be used to study 2D materials. For this kind of systems, angular distributions contain lines along which large yield dominantly determine their shape. We focus on the relationship between the reduced interaction potential and the shape of the rainbow pattern. Metamorphoses of the rainbow pattern in the impact parameter plane were investigated and attributed to the bifurcations of the critical points of the rainbow line curvature. It will be shown that the impact parameter rainbow vertices are connected with the corresponding cusps of rainbows in the scattering angle plane, and their bifurcations will be analyzed in detail.", journal = "ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings", title = "The Morphological analysis of the rainbow scattering effect in proton transmission through graphene", pages = "115-120", url = "https://hdl.handle.net/21.15107/rcub_vinar_12349" }
Ćosić, M.,& Hadžijojić, M.. (2023). The Morphological analysis of the rainbow scattering effect in proton transmission through graphene. in ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings, 115-120. https://hdl.handle.net/21.15107/rcub_vinar_12349
Ćosić M, Hadžijojić M. The Morphological analysis of the rainbow scattering effect in proton transmission through graphene. in ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings. 2023;:115-120. https://hdl.handle.net/21.15107/rcub_vinar_12349 .
Ćosić, Marko, Hadžijojić, Milivoje, "The Morphological analysis of the rainbow scattering effect in proton transmission through graphene" in ISI-2023 : 26th International Conference Ion-Surface Interactions : Proceedings (2023):115-120, https://hdl.handle.net/21.15107/rcub_vinar_12349 .