@article{9159,
  author = {S. Wiesen and C. Bachmann and M. Siccinio and J. Boscary and C. Bourdelle and M. Coleman and G. Federici and F. Maviglia and R. Neu},
  title = {Exhaust assessment of a European Volumetric Neutron Source (EU-VNS) using SOLPS-ITER},
  abstract = {<p>EUROfusion considers a volumetric neutron source (EU-VNS) to generate a neutron wall load of about 0.5 MW/m2 to qualify tritium breeding blankets early in support of EU-DEMO that mitigates the risk of a late testing for required nuclear technology. The envisaged small-scale R=2.5 D-beam/T-target driven fusion device (P fus ~ 30 MW) must exhaust helium particles and dissipate sufficient energy from the large auxiliary power required (P aux ~ 50 MW) entering in large parts the edge. A SOLPS-ITER assessment indicates that with argon seeding a finite divertor operational window exists allowing to avoid core dilution by helium and to reduce the peak heat-flux density below 10 MW/m2. It is shown that an extra constraint of Z eff &lt; 2 - 3, required to sustain good core performance to produce the required amount of fusion neutrons, can also be met if the Greenwald-fraction f GW ~ 0.5 is maintained with total T-throughputs at about half the ITER value. It is reasoned that for a EU-VNS design study the exhaust operational window can be enlarged by choosing other seeding species like Krypton, refining the balance between pellet- to gas-fuelling, and integrated core-edge modelling.</p>},
  year = {2025},
  journal = {Nuclear Materials and Energy},
  volume = {43},
  pages = {101939},
  month = {06/2025},
  doi = {10.1016/j.nme.2025.101939},
  language = {eng},
}