Investigating radiation damage in nuclear energy materials using JANNuS multiple ion beams
A. Gentils, C. Cabet (SRMP)

TL;DR
This paper discusses the use of the JANNuS multiple ion beam platform in France to study radiation damage in nuclear materials, highlighting its capabilities for real-time, in situ analysis under various extreme conditions.
Contribution
It introduces the JANNuS platform's advanced features, including multiple ion beams and in situ microscopy, enabling detailed investigation of radiation effects on diverse nuclear materials.
Findings
Enhanced understanding of microstructural changes under irradiation
Demonstration of real-time observation techniques
Application to various materials like metals, oxides, and glasses
Abstract
Ion accelerators have been used by material scientists for decades to investigate radiation damage formation in nuclear materials and thus to emulate neutron-induced changes. The versatility of conditions in terms of particle energy, dose rate, fluence, etc., is a key asset of ion beams allowing for fully instrumented analytical studies. In addition, very short irradiation times and handling of non-radioactive samples dramatically curtail the global cost and duration as compared to in-reactor testing. Coupling of two or more beams, use of heated/cooled sample holders, and implementation of in situ characterization and microscopy pave the way to real time observation of microstructural and property evolution in various extreme radiation conditions more closely mimicking the nuclear environments. For these reasons, multiple ion beam facilities have been commissioned worldwide. In France,…
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