Cyclotrons2016 - List of Authors (Taft, F.)

Paper	Title	Page
MOP03	Developed Numerical Code Based on the Effects of Space Charge in Central Region of 10 MeV Cyclotron	49
	M. Afkhami Karaei, H. Afarideh, S. Azizpourian, M. Mousavinia, R. Solhju, F. Taft AUT, Tehran, Iran J.-S. Chai, M. Ghergherehchi SKKU, Suwon, Republic of Korea
	To study of space charge effects in 10 MeV cyclotron of Amirkabir University of Technology the C++ code is developed. This cyclotron is designed to accelerate H⁻ up to 10MeV energy. The important components of cyclotron that effect on calculations of space charge include four sector magnets, 2 RF cavities with 71MHz frequency and internal PIG ion source. Equations of motion and effects of charged particles in electromagnetic field of accelerator are integrated in C++ code. The conventional method, 4-order Runge-Kutta, is used to solve the equations. The results of calculations show space charge effects of beam particles on each other in accelerating process.
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Paper

Title

Page

Developed Numerical Code Based on the Effects of Space Charge in Central Region of 10 MeV Cyclotron

49

M. Afkhami Karaei, H. Afarideh, S. Azizpourian, M. Mousavinia, R. Solhju, F. Taft
AUT, Tehran, Iran
J.-S. Chai, M. Ghergherehchi
SKKU, Suwon, Republic of Korea

To study of space charge effects in 10 MeV cyclotron of Amirkabir University of Technology the C++ code is developed. This cyclotron is designed to accelerate H⁻ up to 10MeV energy. The important components of cyclotron that effect on calculations of space charge include four sector magnets, 2 RF cavities with 71MHz frequency and internal PIG ion source. Equations of motion and effects of charged particles in electromagnetic field of accelerator are integrated in C++ code. The conventional method, 4-order Runge-Kutta, is used to solve the equations. The results of calculations show space charge effects of beam particles on each other in accelerating process.

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