RuPAC2014 - List of Authors (Comunian, M.)

Paper	Title	Page
WEPSB27	Design of Multifunctional Facility Based on ECR Ion Source for Material Science	220
	A.V. Ziiatdinova, T. Kulevoy MEPhI, Moscow, Russia S.L. Andrianov, B.B. Chalykh, G. Kropachev, R.P. Kuibeda, T. Kulevoy, A.V. Ziiatdinova ITEP, Moscow, Russia M. Comunian INFN/LNL, Legnaro (PD), Italy
	The traditional experimental method for new materials radiation resistance investigation is a reactor irradiation. However, there are some difficulties during steel exposure in reactor. Simulation method based on ion irradiation allows accelerating the defect generation in the material under investigation. Also a modification of materials by ion beams represents the great practical interest for modern material science. Experiments in both directions are ongoing in ITEP. The paper presents the design of the test-bench based on ECR ion source and electrostatic acceleration which is under development in ITEP. This paper describes the results of beam dynamics simulation in the transport channels of the test-bench. Simulation was carried out in the "real" fields Continuous ion beam achievable at the test-bench enables beam fluence on the target up to 10¹⁶ particles/m2.

WEPSB38	Multifunctional Extraction Channel Development Heavy Ion RFQ (Radio Frequency Quadrupole)	245
	E. Khabibullina, T. Kulevoy MEPhI, Moscow, Russia B.B. Chalykh, R. Gavrilin, A. Golubev, G. Kropachev, R.P. Kuibeda, T. Kulevoy, S.A. Visotski ITEP, Moscow, Russia M. Comunian INFN/LNL, Legnaro (PD), Italy
	In the ITEP the Heavy Ion RFQ HIP-1 (Heavy Ion Prototype) provides ion beams for two different experimental programs. The first one is successfully ongoing and it is aimed to irradiation resistance investigation of reactor construction materials. Samples of new materials for reactors are irradiated by beams of iron, vanadium ions accelerated by the linac. The structure changes are investigated by both transmission electron microscope and atom-probe tomography. The second one is under development and it is aimed to investigate ion beam interaction with plasma and metal vapor targets. On the basis of beam dynamics simulation the design of new RFQ-output line for both experiments realization was developed. Details of beam dynamics simulation and output line design are presented and discussed in this paper.

Paper

Title

Page

Design of Multifunctional Facility Based on ECR Ion Source for Material Science

220

A.V. Ziiatdinova, T. Kulevoy
MEPhI, Moscow, Russia
S.L. Andrianov, B.B. Chalykh, G. Kropachev, R.P. Kuibeda, T. Kulevoy, A.V. Ziiatdinova
ITEP, Moscow, Russia
M. Comunian
INFN/LNL, Legnaro (PD), Italy

The traditional experimental method for new materials radiation resistance investigation is a reactor irradiation. However, there are some difficulties during steel exposure in reactor. Simulation method based on ion irradiation allows accelerating the defect generation in the material under investigation. Also a modification of materials by ion beams represents the great practical interest for modern material science. Experiments in both directions are ongoing in ITEP. The paper presents the design of the test-bench based on ECR ion source and electrostatic acceleration which is under development in ITEP. This paper describes the results of beam dynamics simulation in the transport channels of the test-bench. Simulation was carried out in the "real" fields Continuous ion beam achievable at the test-bench enables beam fluence on the target up to 10¹⁶ particles/m2.

WEPSB38

Multifunctional Extraction Channel Development Heavy Ion RFQ (Radio Frequency Quadrupole)

245

E. Khabibullina, T. Kulevoy
MEPhI, Moscow, Russia
B.B. Chalykh, R. Gavrilin, A. Golubev, G. Kropachev, R.P. Kuibeda, T. Kulevoy, S.A. Visotski
ITEP, Moscow, Russia
M. Comunian
INFN/LNL, Legnaro (PD), Italy

In the ITEP the Heavy Ion RFQ HIP-1 (Heavy Ion Prototype) provides ion beams for two different experimental programs. The first one is successfully ongoing and it is aimed to irradiation resistance investigation of reactor construction materials. Samples of new materials for reactors are irradiated by beams of iron, vanadium ions accelerated by the linac. The structure changes are investigated by both transmission electron microscope and atom-probe tomography. The second one is under development and it is aimed to investigate ion beam interaction with plasma and metal vapor targets. On the basis of beam dynamics simulation the design of new RFQ-output line for both experiments realization was developed. Details of beam dynamics simulation and output line design are presented and discussed in this paper.