TY  - JOUR
AU  - Mayer, M
AU  - Möller, S
AU  - Rubel, M
AU  - Widdowson, A
AU  - Charisopoulos, S
AU  - Ahlgren, T
AU  - Alves, E
AU  - Apostolopoulos, G
AU  - Barradas, N.P.
AU  - Donnelly, S
AU  - Fazinić, S
AU  - Heinola, K
AU  - Kakuee, O
AU  - Khodja, H
AU  - Kimura, Akinori
AU  - Lagoyannis, A
AU  - Li, M
AU  - Markelj, S
AU  - Mudrinić, Mihajlo
AU  - Petersson, P
AU  - Portnykh, I
AU  - Primetzhofer, D
AU  - Reichart, P
AU  - Ridikas, D
AU  - Silva, T
AU  - Gonzalez de Vicente, S.M.
AU  - Wang, Y.Q.
PY  - 2020
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/10140
AB  - Following the IAEA Technical Meeting on 'Advanced Methodologies for the Analysis of Materials in Energy Applications Using Ion Beam Accelerators', this paper reviews the current status of ion beam analysis (IBA) techniques and some aspects of ion-induced radiation damage in materials for the field of materials relevant to fusion. Available facilities, apparatus development, future research options and challenges are presented and discussed. The analysis of beryllium and radioactivity-containing samples from future experiments in JET or ITER represents not only an analytical but also a technical challenge. A comprehensive list of the facilities, their current status, and analytical capabilities comes alongside detailed descriptions of the labs. A discussion of future issues of sample handling and the current status of facilities at JET complete the technical section. To prepare the international IBA community for these challenges, the IAEA technical meeting concludes the necessity for determining new nuclear reaction cross-sections and improving the inter-laboratory comparability by defining international standards and testing these via a round-robin test.
T2  - Nuclear Fusion
T1  - Ion beam analysis of fusion plasma-facing materials and components: facilities and research challenges
VL  - 60
IS  - 2
SP  - 025001
DO  - 10.1088/1741-4326/ab5817
ER  - 

@article{
author = "Mayer, M and Möller, S and Rubel, M and Widdowson, A and Charisopoulos, S and Ahlgren, T and Alves, E and Apostolopoulos, G and Barradas, N.P. and Donnelly, S and Fazinić, S and Heinola, K and Kakuee, O and Khodja, H and Kimura, Akinori and Lagoyannis, A and Li, M and Markelj, S and Mudrinić, Mihajlo and Petersson, P and Portnykh, I and Primetzhofer, D and Reichart, P and Ridikas, D and Silva, T and Gonzalez de Vicente, S.M. and Wang, Y.Q.",
year = "2020",
abstract = "Following the IAEA Technical Meeting on 'Advanced Methodologies for the Analysis of Materials in Energy Applications Using Ion Beam Accelerators', this paper reviews the current status of ion beam analysis (IBA) techniques and some aspects of ion-induced radiation damage in materials for the field of materials relevant to fusion. Available facilities, apparatus development, future research options and challenges are presented and discussed. The analysis of beryllium and radioactivity-containing samples from future experiments in JET or ITER represents not only an analytical but also a technical challenge. A comprehensive list of the facilities, their current status, and analytical capabilities comes alongside detailed descriptions of the labs. A discussion of future issues of sample handling and the current status of facilities at JET complete the technical section. To prepare the international IBA community for these challenges, the IAEA technical meeting concludes the necessity for determining new nuclear reaction cross-sections and improving the inter-laboratory comparability by defining international standards and testing these via a round-robin test.",
journal = "Nuclear Fusion",
title = "Ion beam analysis of fusion plasma-facing materials and components: facilities and research challenges",
volume = "60",
number = "2",
pages = "025001",
doi = "10.1088/1741-4326/ab5817"
}

Mayer, M., Möller, S., Rubel, M., Widdowson, A., Charisopoulos, S., Ahlgren, T., Alves, E., Apostolopoulos, G., Barradas, N.P., Donnelly, S., Fazinić, S., Heinola, K., Kakuee, O., Khodja, H., Kimura, A., Lagoyannis, A., Li, M., Markelj, S., Mudrinić, M., Petersson, P., Portnykh, I., Primetzhofer, D., Reichart, P., Ridikas, D., Silva, T., Gonzalez de Vicente, S.M.,& Wang, Y.Q.. (2020). Ion beam analysis of fusion plasma-facing materials and components: facilities and research challenges. in Nuclear Fusion, 60(2), 025001.
https://doi.org/10.1088/1741-4326/ab5817

Mayer M, Möller S, Rubel M, Widdowson A, Charisopoulos S, Ahlgren T, Alves E, Apostolopoulos G, Barradas N, Donnelly S, Fazinić S, Heinola K, Kakuee O, Khodja H, Kimura A, Lagoyannis A, Li M, Markelj S, Mudrinić M, Petersson P, Portnykh I, Primetzhofer D, Reichart P, Ridikas D, Silva T, Gonzalez de Vicente S, Wang Y. Ion beam analysis of fusion plasma-facing materials and components: facilities and research challenges. in Nuclear Fusion. 2020;60(2):025001.
doi:10.1088/1741-4326/ab5817 .

Mayer, M, Möller, S, Rubel, M, Widdowson, A, Charisopoulos, S, Ahlgren, T, Alves, E, Apostolopoulos, G, Barradas, N.P., Donnelly, S, Fazinić, S, Heinola, K, Kakuee, O, Khodja, H, Kimura, Akinori, Lagoyannis, A, Li, M, Markelj, S, Mudrinić, Mihajlo, Petersson, P, Portnykh, I, Primetzhofer, D, Reichart, P, Ridikas, D, Silva, T, Gonzalez de Vicente, S.M., Wang, Y.Q., "Ion beam analysis of fusion plasma-facing materials and components: facilities and research challenges" in Nuclear Fusion, 60, no. 2 (2020):025001,
https://doi.org/10.1088/1741-4326/ab5817 . .