@article{oai:repo.qst.go.jp:00079438,
 author = {N., Ashikawa (National Institute for Fusion Science, SOKENDAI) and Y., Torikai (Ibaraki University) and Asakura, Nobuyuki and T., Otsuka (Kindai University) and A., Widdowson (CCFE, Culham Science Centre) and M., Rubel (KTH Royal Institute of Technology) and M., Hara (University of Toyama) and Oyaizu, Makoto and Isobe, Kanetsugu and Y., Hatano (University of Toyama) and K., Heinola (University of Helsinki) and A., Baron-Wiechec (CCFE, Culham Science Centre) and S., Jachmich (CCFE, Culham Science Centre) and Hayashi, Takumi and Contributors, JET and Nobuyuki, Asakura and Makoto, Oyaizu and Kanetsugu, Isobe and Takumi, Hayashi},
 journal = {Nuclear Materials and Energy},
 month = {Jan},
 note = {Quantitative tritium inventory in dust particles from campaigns in the JET tokamak with the carbon wall (2007–2009) and the ITER-like wall (ILW 2011–2012) were determined by the liquid scintillation counter and the full combustion method. A feature of this full combustion method is that dust particles were covered by a tin (Sn) which reached 2100 K during combustion under oxygen flow. The specific tritium inventory for samples from JET with carbon and with metal walls was measured and found to be similar. However, the total tritium inventory in dust particles from the ILW experiment was significantly smaller in comparison to the carbon wall due to the lower amount of dust particles generated in the presence of metal walls.},
 title = {Determination of retained tritium from ILW dust particles in JET},
 volume = {22},
 year = {2020}
}