Ion Temperature Measurements in the MAST-U Divertor During Steady State Plasmas and ELM Burn Through Phenomena

Abstract

This study presents ion temperature (\(Ti\)) measurements in the MAST-U divertor, using a Retarding Field Energy Analyzer (RFEA). Steady state measurements were made during an L-Mode plasma with the strike point on the RFEA. ELM measurements were made with the strike point swept over the RFEA. The scenarios are characterized by a plasma current (\(Ip\)) of 750 kA, line average electron density (\(ne\)) between \(1.6 × 1019\) and \(4.5 × 1019\,m-3\), and Neutral Beam Injection (NBI) power ranging from 1.1 MW to 1.6 MW. The ion temperatures, peaking at approximately 10 eV in steady state, were compared with electron temperatures (\(Te\)) obtained from Langmuir probes (LP) at the same radial positions. Preliminary findings reveal a \(Ti/Te\) ratio in the divertor region less than 1 for shot 48008. High temporal resolution measurements captured the dynamics of Edge Localized Modes (ELMs) Burn Through, providing \(Ti\) data as a radial distance from the probe peaking around 20 eV.

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