CYCLOTRONS 2010 - List of Authors (Gad, Kh.M.)

Paper	Title	Page
MOPCP033	Magnet Design of 70 MeV Separate Sector Cyclotron (KoRIA)	120
	Kh.M. Gad, J.-S. Chai, H.W. Kim, B.N. Lee, J.H. Oh, J.A. Park, H.S. Song SKKU, Suwon, Republic of Korea
	Funding: Ministry of Education, Science and Technology, Republic of Korea Department of Energy Science and School of Information and Communication Engineering of SungKyunKwan University A k=100 separated sector cyclotron is being designed in SKKU university South Korea, this cyclotron is considered the main drive for ISOL to produce ~ 70-100 MeV proton beam and ~35-50 MeV deuteron beam for production of radioactive material as a basic nuclear research, in this paper we will describe Opera 3D (Tosca) numerical simulation for determining the basic magnet parameters, magnet material, deformation , imperfection fields and preliminary ion beam dynamics study for verifying the focusing properties of the designed magnet

TUA1CCO04	Design study of 70 MeV Separate Sector Cyclotron for KoRIA project	304
	Kh.M. Gad, J.-S. Chai, H.W. Kim, B.N. Lee, J.H. Oh, J.A. Park, H.S. Song SKKU, Suwon, Republic of Korea
	Funding: Ministry of Education, Science and Technology, Republic of Korea Department of Energy Science and School of Information and Communication Engineering of SungKyunKwan University Starting from April 2010, KoRIA was launched in the republic of Korea; the main objects of this project are fundamental and applied researches, e.g. production of radioisotope beam for the basic science research, nuclear structure, material and life sciences and medical isotope production, A K=100 separated sector cyclotron will be used as a driving accelerator for ISOL. It will provide a 70-100 MeV, ~1 mA of proton beam and 35-50 MeV, ~1 mA of deuteron ion beam, the SSC cyclotron will be injected by 8 MeV proton beam from 2 sector focused cyclotrons. In this paper we will describe briefly the conceptual design of the cyclotron including the design of separated sector magnet, beam dynamics and RF system, etc.

Paper

Title

Page

Magnet Design of 70 MeV Separate Sector Cyclotron (KoRIA)

120

Kh.M. Gad, J.-S. Chai, H.W. Kim, B.N. Lee, J.H. Oh, J.A. Park, H.S. Song
SKKU, Suwon, Republic of Korea

Funding: Ministry of Education, Science and Technology, Republic of Korea Department of Energy Science and School of Information and Communication Engineering of SungKyunKwan University
A k=100 separated sector cyclotron is being designed in SKKU university South Korea, this cyclotron is considered the main drive for ISOL to produce ~ 70-100 MeV proton beam and ~35-50 MeV deuteron beam for production of radioactive material as a basic nuclear research, in this paper we will describe Opera 3D (Tosca) numerical simulation for determining the basic magnet parameters, magnet material, deformation , imperfection fields and preliminary ion beam dynamics study for verifying the focusing properties of the designed magnet

TUA1CCO04

Design study of 70 MeV Separate Sector Cyclotron for KoRIA project

304

Kh.M. Gad, J.-S. Chai, H.W. Kim, B.N. Lee, J.H. Oh, J.A. Park, H.S. Song
SKKU, Suwon, Republic of Korea

Funding: Ministry of Education, Science and Technology, Republic of Korea Department of Energy Science and School of Information and Communication Engineering of SungKyunKwan University
Starting from April 2010, KoRIA was launched in the republic of Korea; the main objects of this project are fundamental and applied researches, e.g. production of radioisotope beam for the basic science research, nuclear structure, material and life sciences and medical isotope production, A K=100 separated sector cyclotron will be used as a driving accelerator for ISOL. It will provide a 70-100 MeV, ~1 mA of proton beam and 35-50 MeV, ~1 mA of deuteron ion beam, the SSC cyclotron will be injected by 8 MeV proton beam from 2 sector focused cyclotrons. In this paper we will describe briefly the conceptual design of the cyclotron including the design of separated sector magnet, beam dynamics and RF system, etc.