Demonstration of rapid shutdown using large shattered deuterium pellet injection in DIII-D

N. Commaux, L. R. Baylor, T. C. Jernigan, E. M. Hollmann, P. B. Parks, D. A. Humphreys, J. C. Wesley, J. H. Yu

Research output: Contribution to journalArticlepeer-review

103 Scopus citations

Abstract

A severe consequence of a disruption on large tokamaks such as ITER could be the generation of multi-megaelectronvolt electron beams that could damage the vacuum vessel and the structures of the machine if they hit the wall unmitigated. The mitigation of runaway electron beams is thus a key requirement for reliable operation of ITER. In order to achieve reliable disruption mitigation, a new fast shutdown technique has been developed: the injection of a large shattered cryogenic pellet in the plasma, which is expected to increase the electron density up to levels where the beam generation processes are mitigated by collisional losses. This technique has been implemented and tested for the first time ever on DIII-D. The first tests show evidence of an almost instantaneous deposition of more than 260 Pa m3 of deuterium deep in the core. Record local densities during the thermal quench were observed for each injection with a very high reliability. Pellet mass and plasma energy content scans show an improvement of the assimilation of the particles for higher plasma energy and larger pellet mass.

Original languageEnglish
Article number112001
JournalNuclear Fusion
Volume50
Issue number11
DOIs
StatePublished - Nov 2010

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