Update of the 5 MW Beam-on-Target Requirements for improvement of the materials irradiation performance at IFMIF-DONES

• Published in: Nuclear materials and energy Vol. 40; p. 101691
• Main Authors: Podadera, Iván, Cara, Philippe, Álvarez-Castro, Irene, Anguiano, Marta, Arbeiter, Frederik, Becerril, Santiago, Bernardi, Davide, Castellanos, Jesús, Chauvin, Nicolas, Dézsi, Tamás, Díaz, Javier, Díez, Almudena, García, Mario, Gordeev, Sergej, Hernández, Rebeca, Luque, María, Macià, Llorenç, Maestre, Jorge, Mota, Fernando, Nitti, Francesco Saverio, Oliver, Concepción, Park, Jin-Hun, Poljak, Dragan, Prieto, Cayetano, Qiu, Yuefeng, Sánchez-Herranz, Daniel, Sanmartí, Manel, Serikov, Arkady, Serrano, Marta, Tadic, Tonci, Ternero, Marta, Torregrosa-Martin, Claudio, Ibarra, Ángel
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2024; Elsevier
• Subjects: Fusion materials; Particle accelerator; Particle accelerator; Fusion materials
• ISSN: 2352-1791; 2352-1791
• DOI: 10.1016/j.nme.2024.101691

IFMIF-DONES is a facility under construction in Granada, whose main goal is the validation and characterization of materials under a fusion prototypic irradiation field. This field is created by the interaction of a high energy intense continuous deuteron beam and a flowing liquid lithium target. The requirements imposed on the beam at the interaction point are a complex trade-off among the scientific experimental needs for the materials irradiation defined at the top-level requirements (20 dpa in a volume of 0.3 dm3 and 50 dpa in 0.1 dm3), and the technical constraints of several systems such as the Accelerator Systems, the Lithium Systems, and the Test Systems. Recent simulations with the initial definition of beam-on-target requirements showed the necessity of redefining them in order to fulfill the irradiation needs. This contribution will address the main challenges to gather the inputs for the definition and reassessment of the beam-on-target requirements. A comparison detailing the main changes compared to the previous ones will be given, together with a short overview of the studies ongoing by different systems to analyze the impact of each beam-on-target requirements on the performance of the whole facility. •Fusion materials irradiation.•Deuteron accelerator.•High current accelerator.•Beam delivery system.•Beam on-target.