Abstract
In this research, a theoretical study was made to calculate electronic stopping power for heavy charged particles (Protons, Alpha particles, Heavy ions (C,O)) which interact with atomic targets (H,C,O,Si) by using the equation which resulting from distant and close collisions ,as it has been calculating the effect of atomic number (Z1) for projectiles and the effect of atomic number (Z2) for targets on the electronic stopping power in range velocities (v=vo,2vo,5vo,10vo). 
 Mathematical approximative methods are used in the calculation and some of the equation programmed by Matlab language to obtain the theoretical result which is shown in the graphic.
Highlights
A mathematical approximative methods are used in the calculation and some of equation programmed by Matlab language to obtain the theoretical result which are shown in graphic
In this research, a theoretical study was made to calculate electronic stopping power for heavy charged particles (Protons, Alpha particles, Heavy ions (C,O)) which interact with atomic targets (H,C,O,Si) by using the equation which resulting from distant and close collisions,as it has been calculate the effect of atomic number (Z1) for projectiles and the effect of atomic number (Z2) for targets on the electronic stopping power in range velocities (v=vo,2vo,5vo,10vo)
[7]Najem K.S.,"Shell and inverse Bloch correction computing from stopping power theories of Bohr and Bethe",M.Sc.Thesis,Al- Mustansiriyah university,2010
Summary
A mathematical approximative methods are used in the calculation and some of equation programmed by Matlab language to obtain the theoretical result which are shown in graphic. Submission date:- 25/11/2018 Acceptance date:- 17/12/2018 Publication date:- 24/2/2019 Abstract In this research, a theoretical study was made to calculate electronic stopping power for heavy charged particles (Protons, Alpha particles, Heavy ions (C,O)) which interact with atomic targets (H,C,O,Si) by using the equation which resulting from distant and close collisions ,as it has been calculate the effect of atomic number (Z1) for projectiles and the effect of atomic number (Z2) for targets on the electronic stopping power in range velocities (v=vo,2vo,5vo,10vo). Journal of University of Babylon for Pure and Applied Sciences (JUBAS) by University of Babylon is licened under a Creative Commons Attribution 4.0 International License.
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