Raj, HarshitaTheiler, C.Thornton, A.Fevrier, O.Gorno, S.Bagnato, F.Blanchard, P.Colandrea, C.de Oliveira, H.Duval, B. P.Labit, B.Perek, A.Reimerdes, H.Sheikh, U.Vallar, M.Vincent, B.2023-01-022023-01-022023-01-022022-12-0110.1088/1741-4326/ac94e5https://infoscience.epfl.ch/handle/20.500.14299/193558WOS:000891941400001Nitrogen seeded detachment has been achieved in the tokamak a configuration variable (TCV) in alternative divertor configurations (ADCs), namely X-divertor and X-point target, with and without baffles in H-mode plasmas with high core confinement. Both ADCs show a remarkable reduction in the inter-ELM particle and heat fluxes to the target compared to the standard divertor configuration. 95%-98% of the inter-ELM peak heat flux to the target is mitigated as a synergetic effect of ADCs, baffling, and nitrogen seeded detachment. The effect of divertor geometry and baffles on core-divertor compatibility is investigated in detail. The power balance in these experiments is also investigated to explore the physics behind the observed reduction in heat fluxes in the ADCs.Physics, Fluids & PlasmasPhysicstokamakadvanced divertor configurationsh-modehigh confinementbaffleslangmuir probesdivertor heat load mitigationdetachmentgeometrypowertext::journal::journal article::research article