WP1. Building the theoretical model and corresponding numerical simulations for (photo)electron–atom(molecule) collisions
1.1. Photoionization processes; Electron-ion and ion-atom/molecule collisions responsible for LIB.
1.2. Numerical investigation of developed theoretical models/equations for LIB.
WP2. Theoretical preparation of the models and numerical calculations for fast ion-atom(molecule) collisions
2.1. Calculation of state-selective, differential and total cross sections in ion-atom collisions by using three-body methods.
2.2. Processes studied in quantum mechanical four-body formalism.
2.3. Processes of the change-exchange in ion-ion (molecule) collisions.
WP3. Experimental study and modelling of fast collisional processes and fragmentation patterns upon electron impact and synchrotron radiation
3.1. Experiments on electron interaction with atomic and molecular particles at the intermediate energy range.
3.2. Resonant Auger decays upon inner-shell excitation-ionization at high impact electron energies.
3.3. Theoretical study of induced fragmentation patterns.
1. From The Faculty of Natural Science and Mathematics, Univ. of Kragujevac (UKg)
- Dr. Violeta Petrovic, principal investigator
- Dr. Hristina Delibašic Markovic
2. From The Faculty of Natural Science and Mathematics, Univ. of Nis (UNis)
3. From The Institute of Physics, University of Belgrade (IPB)
4. Associated members from Faculty of Science, University of Banja Luka
2023 project ATMOLCOL , 2024 , 2025 , 2026
2011-2019 Project #OI 171020: 2011 , 2012 , 2013 , 2014, 2015 , 2016 , 2017 , 2018 , 2019
2006-2010 Experiment #OI 141011: 2006 , 2007 , 2008 , 2009 , 2010
2001-2005 Experiment #OI 1424: 2005 , 2004 , 2003 , 2002 , 2001