Following impurity injection by laser ablation (LA) in JET plasmas, the electron temperature, T-e, is observed to drop at a rate that cannot be accounted for by changes in radiated power, Delta P-rad. T-e starts to drop promptly over a large fraction of the plasma volume, which can be explained by a non-local change in electron heat diffusivity. The change in diffusivity, Delta chi(e), is generally short lived, lasting a few milliseconds, even if Delta P(ra)d can persist for longer times. No clear relation between Delta P-rad and the strength of the prompt plasma response to LA can be observed, but only those events with Delta P-rad/P-rad > 0.5 give rise to detectable T-e perturbations. In hot ion H mode plasmas, Delta chi(e) is found to be spatially non-uniform and increasing exponentially with the time delay of the LA relative to the onset of the H mode. Examples of non-monotonic Delta chi(e) profiles are found in plasmas of lower heating power. Energy transport models combining local and non-local (or strongly non-linear) features are possible candidates for an explanation of these observations.
Transient heat transport studies using laser ablated impurity injection in JET
A Jacchia;P Mantica;
1998
Abstract
Following impurity injection by laser ablation (LA) in JET plasmas, the electron temperature, T-e, is observed to drop at a rate that cannot be accounted for by changes in radiated power, Delta P-rad. T-e starts to drop promptly over a large fraction of the plasma volume, which can be explained by a non-local change in electron heat diffusivity. The change in diffusivity, Delta chi(e), is generally short lived, lasting a few milliseconds, even if Delta P(ra)d can persist for longer times. No clear relation between Delta P-rad and the strength of the prompt plasma response to LA can be observed, but only those events with Delta P-rad/P-rad > 0.5 give rise to detectable T-e perturbations. In hot ion H mode plasmas, Delta chi(e) is found to be spatially non-uniform and increasing exponentially with the time delay of the LA relative to the onset of the H mode. Examples of non-monotonic Delta chi(e) profiles are found in plasmas of lower heating power. Energy transport models combining local and non-local (or strongly non-linear) features are possible candidates for an explanation of these observations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.