An upgrade of the materials irradiation facility with in-situ electrical resistivity measurement at the Demokritos TANDEM accelerator

 
This item is provided by the institution :

Repository :
Annual Symposium of the Hellenic Nuclear Physics Society  | ΕΚΤ eProceedings
see the original item page
in the repository's web site and access all digital files if the item*
share



Semantic enrichment by EKT
Conference article (EN)
Scientific article (EN)
2019 (EN)
An upgrade of the materials irradiation facility with in-situ electrical resistivity measurement at the Demokritos TANDEM accelerator (EN)
Kotsina, Z.
Apostolopoulos, G.
Axiotis, M.
Theodorou, A.
As an important part of fusion materials research, evaluation of radiation damage in fusion materials has been emphasized more than a half century. In order to improve our understanding of radiation damage in fusion materials, an upgrade has been performed of the materials irradiation facility IR2, which is located at the NCSR “Demokritos” 5.5 MV TANDEM accelerator. The upgraded facility allows irradiation at higher ion beam currents while ensuring that the target temperature remains below 10 K. It provides in-situ electrical resistivity measurements on several samples for real-time monitoring of radiation damage as well as in-situ post-irradiation annealing up to 300 K. The upgraded IR2 facility has been successfully employed in radiation damage and recovery studies of metallic materials with applications in fusion research. (EN)
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
fusion (EN)
in-situ methods (EN)
radiation damage (EN)
proton irradiation (EN)
electrical resistivity (EN)
Hellenic Nuclear Physics Society
Annual Symposium of the Hellenic Nuclear Physics Society
Annual Symposium of the Hellenic Nuclear Physics Society
English
2019-04-01
https://eproceedings.epublishing.ekt.gr/index.php/hnps/article/view/1833
10.12681/hnps.1833
Hellenic Nuclear Physics Society (HNPS) (EN)
2654-0088
2654-007X
Annual Symposium of the Hellenic Nuclear Physics Society; Τόμ. 26 (2018): HNPS2018; 250-253 (EL)
HNPS Advances in Nuclear Physics; Vol. 26 (2018): HNPS2018; 250-253 (EN)
Πνευματική ιδιοκτησία (c) 2019 A. Theodorou, Z. Kotsina, M. Axiotis, G. Apostolopoulos (EL)



*Institutions are responsible for keeping their URLs functional (digital file, item page in repository site)