Objective
Summarizing, the project is focused on theoretical and experimental studies of projectile electron loss processes in the collisions of high energy projectiles in their collisions with rest gas atoms, such as He, Xe, Ar, Kr, etc. Collision energies to be considered will cover from few MeVs to few hundred GeVs (ultrarelativistic collisions). Theoretical cross sections will be obtained beyond the Born approximation, using such approaches as sudden perturbation, eikonal approximation and ultra-relativistic solution of the Dirac equation. The need in such non-perturbative calculations dictated by ongoing experiments at GSI and forthcoming experiments at FAIR facility, where high collision energies are used. Considering low charge state projectiles are also important for forthcoming experiments. Some part of the obtained theoretical results will be related to the experimental studies to be performed by GSI and Stockholm groups.
Theoretical studies will be performed by four teams involved into the project Tashkent, Juelich, Moscow and Arkhangelsk teams, while experimental part of the project will be performed by GSI and Stockholm teams. Experiments will be planned with extensive participation theoretical teams, which will give predictions for the data to be measured in those experiments. Visits of NIS team members to GSI and Stockholm as well as INTAS team members to NIS team institutes are planned. At least of meeting (at GSI) with participations representatives from all involved teams is planned. It is expected that collaboration will be long-term and will be continued after finishing of the project, within the framework of other projects related to the FAIR. It should be noticed, that there is existed collaborations between Tashkent, Arkhangelsk, Juelich and GSI teams, between Moscow and GSI teams, between GSI and Stockholm teams.
In particular, a non-perturbative approach is developed for the treatment of single and multiple projectile electron losses in fast and relativistic collisions with neutral targets. The results of the work are published in J. Phys. B 39 (2006) 1447. Therefore, we believe that the existing collaborative background will make extensive and productive the collaboration of all 6 teams within this project.
Fields of science (EuroSciVoc)
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Keywords
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Project’s keywords as indicated by the project coordinator. Not to be confused with the EuroSciVoc taxonomy (Fields of science)
Programme(s)
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Funding Scheme
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Coordinator
DARMSTADT
Germany
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