1996
DOI: 10.1103/physrevlett.76.2499
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Invariance of Divertor Retention on External Particle Flow in Detached ASDEX Upgrade Discharges

Abstract: Divertor plasmas with strong external gas puffing in ASDEX Upgrade have shown very efficient impurity retention, increasing with the divertor neutral gas density. The experiments presented here use feedback-controlled gas puffs in discharges with different pumping speed to keep the divertor neutral gas flux density the same. This allows for the first time a decoupling of the divertor neutral gas flux density and the external gas flow. The resulting plasmas are almost identical and show identical impurity reten… Show more

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Cited by 31 publications
(8 citation statements)
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“…In ASDEX Upgrade no strong effect on impurity compression and overall divertor performance was seen by puff and pump experiments, neither in Div-I nor in Div-II [129,138], in agreement with B2-Eirene predictions and in contradiction to results of DIII-D [130].…”
Section: 123supporting
confidence: 71%
See 1 more Smart Citation
“…In ASDEX Upgrade no strong effect on impurity compression and overall divertor performance was seen by puff and pump experiments, neither in Div-I nor in Div-II [129,138], in agreement with B2-Eirene predictions and in contradiction to results of DIII-D [130].…”
Section: 123supporting
confidence: 71%
“…The externally applied fluxes (gas puffs) compete with intrinsic recycling fluxes, which are usually several orders of magnitude larger. Consistent with this picture, it was proven experimentally [129] at ASDEX Upgrade that the internal recycling fluxes are responsible for the divertor retention of impurities, not the external flux. This was demonstrated by doing shots with identical divertor neutral densities, but different pumping speed (switching off turbo-pumps) and therefore different external flux.…”
Section: Impurity Flow Patternsupporting
confidence: 50%
“…A comparison of the inferred electron pressure in the SP region p e = n e T e ∼ 25-80 Pa to the measured MP pressure p e ∼ 50-120 Pa confirmed a pressure decrease from midplane to target in the SFD. In a partially detached divertor SP region with T e 1-2 eV, a significant reduction of divertor physical and chemical sputtering rates, as well as an improved impurity entrainment in a hydrogenic plasma flow are expected [9,10,27,30,31]. While the physical mechanism is yet to be confirmed, this is consistent with the observed reduction in Z eff and impurity concentration in the SFD discharges.…”
supporting
confidence: 69%
“…Previous measurements showed that neither ion flux nor M k was increased during gas puffing into the main chamber during the divertor pumping, i.e 'puff and pump' (PP), in AUG [40] and JT-60U [41] although the impurity concentration in the main plasma was reduced. Measurements of the SOL flow at the HFS (above baffle) and LFS (midplane and X-point) SOLs during intense gas puffing at the plasma top (1-3 · 10 22 s À1 ) were recently performed in JT-60U L-mode with the normal B t [42], where only the HFS divertor plasma was partly detached.…”
Section: Influence On Impurity Transportmentioning
confidence: 96%