Study of the Impact of Pre-and Real-Time Depositions of Lithium on Plasma Performance on NSTX

Gustavo Paganini Canal; Rajesh Maingi; Todd E. Evans; Stanley M. Kaye; Dennis K. Mansfield

doi:10.1109/TPS.2019.2921762

Study of the Impact of Pre-and Real-Time Depositions of Lithium on Plasma Performance on NSTX

Gustavo Paganini Canal, Rajesh Maingi, Todd E. Evans, Stanley M. Kaye, Dennis K. Mansfield

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The efficiency of two lithium (Li) injection methods used on the National Spherical Torus Experiment (NSTX) are compared in terms of the amount of Li used to produce equivalent plasma performance improvements, namely, Li evaporation over the divertor plates, prior to the initiation of the discharge, and real-time Li injection directly into the plasma scrape-off layer during the discharge. The measurements show that the real-time method can affect the energy confinement and the edge stability of NSTX plasmas in a more efficient way than the Li evaporation method, as it requires only a fraction of the amount of Li used by the evaporation method to produce similar improvements.

Original language	English (US)
Article number	8752018
Pages (from-to)	4225-4232
Number of pages	8
Journal	IEEE Transactions on Plasma Science
Volume	47
Issue number	8
DOIs	https://doi.org/10.1109/TPS.2019.2921762
State	Published - Aug 2019

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

Lithium
plasma confinement
tokamaks

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10.1109/TPS.2019.2921762

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title = "Study of the Impact of Pre-and Real-Time Depositions of Lithium on Plasma Performance on NSTX",

abstract = "The efficiency of two lithium (Li) injection methods used on the National Spherical Torus Experiment (NSTX) are compared in terms of the amount of Li used to produce equivalent plasma performance improvements, namely, Li evaporation over the divertor plates, prior to the initiation of the discharge, and real-time Li injection directly into the plasma scrape-off layer during the discharge. The measurements show that the real-time method can affect the energy confinement and the edge stability of NSTX plasmas in a more efficient way than the Li evaporation method, as it requires only a fraction of the amount of Li used by the evaporation method to produce similar improvements.",

keywords = "Lithium, plasma confinement, tokamaks",

author = "Canal, \{Gustavo Paganini\} and Rajesh Maingi and Evans, \{Todd E.\} and Kaye, \{Stanley M.\} and Mansfield, \{Dennis K.\}",

note = "Publisher Copyright: {\textcopyright} 1973-2012 IEEE.",

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AU - Canal, Gustavo Paganini

AU - Maingi, Rajesh

AU - Evans, Todd E.

AU - Kaye, Stanley M.

AU - Mansfield, Dennis K.

PY - 2019/8

Y1 - 2019/8

N2 - The efficiency of two lithium (Li) injection methods used on the National Spherical Torus Experiment (NSTX) are compared in terms of the amount of Li used to produce equivalent plasma performance improvements, namely, Li evaporation over the divertor plates, prior to the initiation of the discharge, and real-time Li injection directly into the plasma scrape-off layer during the discharge. The measurements show that the real-time method can affect the energy confinement and the edge stability of NSTX plasmas in a more efficient way than the Li evaporation method, as it requires only a fraction of the amount of Li used by the evaporation method to produce similar improvements.

AB - The efficiency of two lithium (Li) injection methods used on the National Spherical Torus Experiment (NSTX) are compared in terms of the amount of Li used to produce equivalent plasma performance improvements, namely, Li evaporation over the divertor plates, prior to the initiation of the discharge, and real-time Li injection directly into the plasma scrape-off layer during the discharge. The measurements show that the real-time method can affect the energy confinement and the edge stability of NSTX plasmas in a more efficient way than the Li evaporation method, as it requires only a fraction of the amount of Li used by the evaporation method to produce similar improvements.

KW - Lithium

KW - plasma confinement

KW - tokamaks

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Study of the Impact of Pre-and Real-Time Depositions of Lithium on Plasma Performance on NSTX

Abstract

All Science Journal Classification (ASJC) codes

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