@article{8241503f570e48ee8f3ae623efc11a50,
title = "Experimental study on the role of the target electron temperature as a key parameter linking recycling to plasma performance in JET-ILW",
abstract = "Changes",
keywords = "experimental plasma boundary physics, integration of tokamak exhaust and performance, plasma divertor spectroscopy, recycling impact on plasma performance",
author = "B. Lomanowski and M. Dunne and N. Vianello and S. Aleiferis and M. Brix and J. Canik and Carvalho, \{I. S.\} and L. Frassinetti and D. Frigione and L. Garzotti and M. Groth and A. Meigs and S. Menmuir and M. Maslov and T. Pereira and \{Perez Von Thun\}, C. and M. Reinke and D. Refy and F. Rimini and G. Rubino and Schneider, \{P. A.\} and G. Sergienko and A. Uccello and \{Van Eester\}, D. and \{Jet Contributors\}, Contributors",
note = "Publisher Copyright: {\textcopyright}, the spatially averaged spectroscopically derived outer target electron temperature. Dedicated JET with the ITER-like wall (JET-ILW) experiments in combination with an extended JET-ILW database of unseeded low-triangularity H-mode plasmas spanning a wide range of D2 fueling rates, I p, B t and heating power have demonstrated the importance of T e,ot»as a key physics parameter linking the recycling particle source and detachment with plasma performance. The remarkably robust H 98(y,2) trend with T e,ot»is connected to a strong inverse correlation between T e,ot ",
year = "2022",
month = jun,
doi = "10.1088/1741-4326/ac5668",
language = "English",
volume = "62",
journal = "Nuclear Fusion",
issn = "0029-5515",
number = "6",
}