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Cherkez, D. I.
36
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Online (36)
Mediatypes
Articles (Online) (20)
OpenAccess-fulltext (16)
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1
Complex of Facilities for Studying Interaction of Hydrogen ..:
Golubeva, A. V.
;
Bobyr, N. P.
;
Cherkez, D. I.
.
Fusion Science and Technology. 79 (2023) 4 - p. 488-501 , 2023
Link:
https://doi.org/10.1080/..
?
2
A GDP Facility for Studying the Permeability of Membranes I..:
Golubeva, A. V.
;
Khvostov, R. P.
;
Cherkez, D. I.
...
Instruments and Experimental Techniques. 65 (2022) 5 - p. 837-848 , 2022
Link:
https://doi.org/10.1134/..
?
3
Deuterium permeability of Russian fusion structural materia..:
Cherkez, D.I.
;
Golubeva, A.V.
;
Spitsyn, A.V.
.
Journal of Nuclear Materials. 571 (2022) - p. 154017 , 2022
Link:
https://doi.org/10.1016/..
?
4
Interaction of Hydrogen Isotopes with Ferritic-Martensitic ..:
Golubeva, A. V.
;
Bobyr, N. P.
;
Cherkez, D. I.
...
Inorganic Materials: Applied Research. 12 (2021) 5 - p. 1196-1205 , 2021
Link:
https://doi.org/10.1134/..
?
5
Deuterium permeation through the low-activated V–4Cr–4Ti al..:
Cherkez, D.I.
;
Spitsyn, A.V.
;
Golubeva, A.V.
.
Nuclear Materials and Energy. 23 (2020) - p. 100756 , 2020
Link:
https://doi.org/10.1016/..
?
6
Hydrogen Retention in Tungsten Alloys Developed for Fusion ..:
Golubeva, A. V.
;
Cherkez, D. I.
Physics of Atomic Nuclei. 82 (2019) 7 - p. 996-1004 , 2019
Link:
https://doi.org/10.1134/..
?
7
Deuterium Permeation Through Reduced Activation V-4Cr-4Ti A..:
Cherkez, D. I.
;
Spitsyn, A. V.
;
Golubeva, A. V.
...
Physics of Atomic Nuclei. 82 (2019) 7 - p. 1010-1024 , 2019
Link:
https://doi.org/10.1134/..
?
8
A facility for permeation measurements under plasma irradia..:
Golubeva, A. V.
;
Cherkez, D. I.
;
Spitsyn, A. V.
.
Instruments and Experimental Techniques. 60 (2017) 6 - p. 843-852 , 2017
Link:
https://doi.org/10.1134/..
?
9
Tritium Retention in Reduced-Activation Ferritic/Martensiti..:
Hatano, Y.
;
Alimov, V. Kh.
;
Spitsyn, A. V.
...
Fusion Science and Technology. 67 (2015) 2 - p. 361-364 , 2015
Link:
https://doi.org/10.13182..
?
10
Retention of deuterium in damaged low-activation steel Rusf..:
Spitsyn, A.V.
;
Golubeva, A.V.
;
Bobyr, N.P.
...
Journal of Nuclear Materials. 455 (2014) 1-3 - p. 561-567 , 2014
Link:
https://doi.org/10.1016/..
?
11
Hydrogen interaction with the low activation ferritic–marte..:
Golubeva, A.V.
;
Bobyr, N.P.
;
Cherkez, D.I.
...
Journal of Nuclear Materials. 438 (2013) - p. S983-S987 , 2013
Link:
https://doi.org/10.1016/..
?
12
Gas-driven hydrogen permeation through tungsten-coated grap..:
Golubeva, A.V.
;
Spitsyn, A.V.
;
Mayer, M.
...
Journal of Nuclear Materials. 415 (2011) 1 - p. S688-S691 , 2011
Link:
https://doi.org/10.1016/..
?
13
Concept of DT Fuel Cycle for a Fusion Neutron Source:
Anan'ev, Sergey S.
;
Spitsyn, Alexander V.
;
Kuteev, Boris V.
...
Fusion Science and Technology. 67 (2015) 2 - p. 241-244 , 2015
Link:
https://doi.org/10.13182..
?
14
Deuterium permeation through the low-activated V–4Cr–4Ti al..:
D.I. Cherkez
;
A.V. Spitsyn
;
A.V. Golubeva
.
http://www.sciencedirect.com/science/article/pii/S2352179120300326. , 2020
Link:
https://doi.org/10.1016/..
?
15
Shaping Graphene Superconductivity with Nanometer Precision:
Cortés‐del Río, Eva
;
Trivini, Stefano.
;
Pascual, José I.
...
Small. 20 (2023) 20 - p. , 2023
Link:
https://doi.org/10.1002/..
1-15