@article{9287, author = {L. Frassinetti and D. King and S. Saarelma and B. Labit and S. Blackmore and D. Keeling and C. P. Perez von Thun and C. Giroud and S. Wiesen and A. Kappatou and N. Vianello and E. Alessi and M. Brix and I. S. Carvalho and P. Carvalho and A. Chomiczewska and S. Elmore and J. M. Fontdecaba Climent and E. Giovannozzi and J. R. Harrison and S. S. Henderson and D. Kos and E. Kowalska-Strzeciwilk and K. Imada and M. Lennholm and M. Maslov and A. Meigs and S. Menmuir and A. Merle and R. Bianchetti-Morales and H. Nystrom and E. Pawelec and G. Pucella and R. Scannell and D. Silvagni and A. Stagni and P. Ryan and H. J. Sun}, title = {Effect of density on peeling limited pedestals in JET-ILW, MAST-U and TCV and implications for ITER pedestal predictions}, abstract = {

Plasmas with low collisionality and with the pedestal limited by peeling modes have been achieved in JET-ILW, MAST-U and TCV. The achieved electron-electron pedestal collisionality and the achieved ratio between electron separatrix density to pedestal density are in the ranges ν_e (*ped)=0.1-0.4 and n_e sep/n_e ped=0.3-0.9, approaching ITER values. In these conditions, the experimental results show that the pedestal pressure increases with increasing density and no degradation of the pedestal pressure with increasing n_e sep/n_e ped has been observed. These behaviours are opposite to what observed in ballooning limited pedestals. However, in all the three machines, both the increase of the pedestal density and the increase of the separatrix density destabilize the ballooning modes and tend to move the pedestal from being peeling limited to being limited by coupled peeling–ballooning modes. The Europed pedestal predictions have been validated against the experimental results in all the three machines, showing a good qualitative agreement and a reasonable quantitative agreement when approaching ITER-relevant parameters of ν_e (*ped) and p_  (*ped) (normalized ion Larmor radius). The Europed predictions have been applied to ITER showing that the instabilities that will limit its pedestal strongly depend on the values of n_e ped and n_e sep. Nonetheless, assuming type I ELMy H-modes, the ITER pedestal in the Q=10 scenario will reach p_e ped≈ 60kPa, with a pedestal pressure that will increase with increasing density and with no degradation at high n_e sep/n_e ped.

}, year = {2026}, journal = {Nuclear Fusion}, volume = {66}, pages = {in press}, publisher = {IOP Publishing}, doi = {10.1088/1741-4326/ae5c1c}, language = {eng}, }