Development of new materials for future energy facilities with higher operating efficiency is a challenging and crucial task. However, full-scale testing of radiation hardness for reactor materials is quite sophisticated and difficult as it requires long session of reactor irradiation; moreover, induced radioactivity considerably complicates further investigation. Ion beam irradiation does not have such a drawback; on the contrary, it has certain advantages. One of them is high speed of defect formation. Therefore, it provides a useful tool for modeling of different radiation damages. Improved understanding of material behavior under high dose irradiation will probably allow to simulate reactor irradiation close to real conditions and to make an adequate estimation of material radiation hardness. Since 2008 in Institute for Theoretical and Experimental Physics, the ion beam irradiation experiments are under development at the heavy ion radio frequency quadrupole linac and very important results are obtained already [T. V. Kulevoy et al., in Proceedings of the International Topical Meeting on Nuclear Research Applications and Utilization of Accelerators, IAEAVienna, Austria, 2009, http://www.pub.iaea.org/MTCD/publications/PDF/P1433_CD/darasets/papers/ap_p5_07.pdf]. Nevertheless, the new test bench based on electro-cyclotron resonance ion source and high voltage platform is developed. The project of the test bench is presented and discussed.

1.
L. I.
Ivanov
and
Yu. M.
Platov
,
Radiation Physics of Metals and Its Applications
(
Interkontakt Nauka
,
Moscow
,
2002
).
2.
V. N.
Voevodin
and
I. M.
Neklyudov
,
Evolution of Structural Phase State and Radiation Strength of Structural Materials
(
Naukova Dumka
,
Kiev
,
2006
).
3.
R. S.
Nelson
,
D. J.
Mazey
, and
J. A.
Hudson
,
J. Nucl. Mater.
37
,
1
12
(
1970
).
4.
A. D.
Marwick
,
J. Nucl. Mater.
55
,
259
266
(
1975
).
5.
I.
Shiori
,
J. Nucl. Mater.
251
,
225
236
(
1997
).
6.
V.
Voyevodin
,
I.
Neklyudov
,
G.
Tolstolutskaya
,
V.
Bryk
,
J.
Fomenko
, and
R.
Vasilenlo
, in
Proceedings of the International Topical Meeting on Nuclear Research Applications and Utilization of Accelerators
,
IAEA, Vienna, Austria
,
2009
, see http://www_pub.iaea.org/MTCD/publications/PDF/P1433_CD/darasets/papers/ap_int_02.pdf.
7.
J.
Ohta
,
T.
Ohmura
,
K.
Kako
,
M.
Tokiwai
, and
T.
Suzuki
,
J. Nucl. Mater.
225
,
187
191
(
1995
).
8.
T. V.
Kulevoy
,
A. A.
Aleev
,
V. A.
Kozlov
,
G. N.
Kropachev
,
R. P.
Kuibeda
,
A. A.
Nikitin
,
S. V.
Rogozhkin
,
A. I.
Semennikov
,
B. Yu.
Sharkov
, and
A. G.
Zaluzhny
, in
Proceedings of the International Topical Meeting on Nuclear Research Applications and Utilization of Accelerators, IAEA
,
Vienna, Austria
,
2009
, see http://www.pub.iaea.org/MTCD/publications/PDF/P1433_CD/darasets/papers/ap_p5_07.pdf.
9.
G. N.
Kropachev
,
R. P.
Kuibeda
,
A. I.
Semennikov
,
A. A.
Aleev
,
A. D.
Fertman
,
T. V.
Kulevoy
,
A. A.
Nikitin
,
S. V.
Rogozhkin
, and
M.
Cavenago
, in
Proceedings of 11th International Conference on Heavy Ion Accelerator Technology
,
Venezia, Italy
, 8–12 June
2009
, see http://www.lnl.infn.it/~HIAT09/papers/poster/A6T.pdf.
10.
T.
Kulevoy
,
R.
Kuibeda
,
G.
Kropachev
,
A.
Kozlov
,
B.
Chalyh
,
A.
Aleev
,
A.
Fertman
,
A.
Nikitin
, and
S.
Rogozhkin
,
Rev. Sci. Instrum.
81
,
02B906
(
2010
).
11.
S. V.
Rogozhkin
,
A. A.
Aleev
,
A. G.
Zaluzhnyi
,
R. P.
Kuibida
,
T. V.
Kulevoi
,
A. A.
Nikitin
,
N. N.
Orlov
,
B. B.
Chalykh
, and
V. B.
Shishmarev
,
Phys. Met. Metallogr.
113
(
2
),
200
211
(
2012
).
12.
R. P.
Kuybida
,
T. V.
Kulevoy
,
B. B.
Chalykh
,
A. I.
Semennikov
,
G. N.
Kropachev
,
I. A.
Stoyakin
,
A. O.
Cheritsa
,
A. D.
Fertman
,
A. A.
Aleev
,
A. A.
Nikitin
,
N. N.
Orlov
, and
S. V.
Rogozhki
,
Prob. At. Sci. Technol.
N4
(
80
),
68
70
2012
.
13.
R. P.
Kuybida
,
B. B.
Chalykh
,
V. B.
Shismarev
,
N. Y.
Grachev
,
A. D.
Fertman
,
A. A.
Aleev
,
A. A.
Nikitin
,
N. N.
Orlov
,
S. V.
Rogozhkin
, and
T. V.
Kulevoy
,
Prob. At. Sci. Technol.
N4
(
80
),
188
190
(
2012
).
14.
A. A.
Aleev
,
N. A.
Iskandarov
,
M.
Klimenkov
,
R.
Lindau
,
A.
Möslang
,
A. A.
Nikitin
,
S. V.
Rogozhkin
,
P.
Vladimirov
, and
A. G.
Zaluzhnyi
,
J. Nucl. Mater.
409
,
65
71
(
2011
).
15.
S. V.
Rogozhkin
,
A. A.
Aleev
,
A. G.
Zaluzhnyi
,
A. A.
Nikitin
,
N. A.
Iskandarov
,
P.
Vladimirov
,
R.
Lindau
, and
A.
Möslang
,
J. Nucl. Mater.
409
,
94
99
(
2011
).
16.
D.
Kashinsky
,
A.
Kolomiets
,
T.
Kulevoy
,
R.
Kuybida
,
V.
Kuzmichov
,
S.
Minaev
,
V.
Pershin
,
B.
Sharkov
,
R.
Vengrov
, and
S.
Yaramishev
, in
Proceedings of the 7th European Particle Accelerator Conference, EPAC, 2000
,
Vienna
,
2000
.
17.
V.
Batalin
,
R.
Kuybeda
,
T.
Kulevoy
, and
S.
Petrenko
, ‘‘
Report on ITEP MEVVA development
,” in
Proceedings of the Workshop on Vacuum Arc Ion Sources, Berkeley, 1996
, pp.
37
39
.
18.
A. L.
Suvorov
,
S. V.
Rogozhkin
,
A. G.
Zaluzhnyi
,
A. A.
Aleev
,
A. F.
Bobkov
,
S. V.
Zaitsev
,
A. V.
Karpov
,
M. A.
Kozodaev
,
B. A.
Loginov
, and
O. N.
Makeev
,
Vopr. At. Nauki Tekh., Ser. Materialoved. Nov. Mater.
1
(
66
),
3
13
(
2006
).
19.
T. F.
Kelly
and
M. K.
Miller
,
Rev. Sci. Instrum.
78
,
031101
(
2007
).
20.
I. S.
Kim
,
J. D.
Hunn
,
N.
Hashimoto
,
D. L.
Larson
,
P. J.
Maziasz
,
K.
Miyahara
, and
E. H.
Lee
,
J. Nucl. Mater.
280
,
264
274
(
2000
).
21.
M. K.
Miller
,
Atom Probe Tomography
(
Kluwer
,
New York
,
2000
).
22.
S.
Bogomolov
,
V.
Bekhterev
,
A.
Efremov
,
B.
Gikal
,
G.
Gulbekian
,
Yu
Kostukhov
,
A.
Lebedev
,
V.
Loginov
, and
N.
Yazvitsky
, in
Proceedings of the RUPAC2012
,
2012
, see http://accelconf.web.cern.ch/accelconf/rupac2012/papers/fryor01.pdf.
23.
H.
Koivisto
,
J.
Ärje
, and
M.
Nurmia
,
Nucl. Instrum. Methods
94
(
3
),
291
296
(
1994
).
24.
A.
Kitagawa
,
M.
Muramatsu
,
T.
Fujita
,
W.
Takasugi
,
S.
Wakaisami
,
S.
Biri
, and
A. G.
Drentje
, in
Proceedings of the ECRIS08, Chicago, IL
, http://epaper.kek.jp/ecris08/, p.
92
.
25.
J. Y.
Benitez
,
F. Y.
Franzen
,
A.
Hodgkinson
,
T.
Loew
,
C. M.
Lyneis
,
L.
Phair
,
J.
Sba
,
M.
Strohmeier
, and
O.
Tarvainen
,
Rev. Sci. Instrum.
83
,
02A311
(
2012
).
26.
B. B.
Chalykh
,
R. P.
Kuybeda
,
T. V.
Kulevoy
, and
A.
Ziiatdinova
, in
Proceedings of the XXIII International Workshop on Charged Particle Accelerators
,
Alushta, Ukraine
, 8–14 September
2013
.
27.
M.
Cavenago
,
T.
Kulevoy
,
V.
Stolbunov
, and
A.
Vassiliev
, in
Proceedings of the Fifth European Particle Accelerator Conference, EPAC96
, Vol.
2
, p.
1487
1489
, http://accelconf.web.cern.ch/AccelConf/e96/PAPERS/THPL/THP035L.PDF.
28.
See www.srim.org to download the code and its manual.
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