Diagnostics for molybdenum and tungsten erosion and transport in NSTX-U

Scotti, F.; Soukhanovskii, V.; Weller, M.
Issue date: November 2016
Cite as:
Scotti, F., Soukhanovskii, V., & Weller, M. (2016). Diagnostics for molybdenum and tungsten erosion and transport in NSTX-U [Data set]. Princeton Plasma Physics Laboratory, Princeton University.
@electronic{scotti_f_2016,
  author      = {Scotti, F. and
                Soukhanovskii, V. and
                Weller, M.},
  title       = {{Diagnostics for molybdenum and tungsten
                erosion and transport in NSTX-U}},
  publisher   = {{Princeton Plasma Physics Laboratory, Pri
                nceton University}},
  year        = 2016
}
Abstract:

A comprehensive set of spectroscopic diagnostics is planned in the National Spherical Torus Experi- ment Upgrade to connect measurements of molybdenum and tungsten divertor sources to scrape-o↵ layer (SOL) and core impurity transport, supporting the installation of high-Z plasma facing compo- nents which is scheduled to begin with a row of molybdenum tiles. Imaging with narrow-bandpass interference filters and high-resolution spectroscopy will be coupled to estimate divertor impurity influxes. Vacuum ultraviolet and extreme ultraviolet spectrometers will allow connecting high-Z sources to SOL transport and core impurity content. The high-Z diagnostics suite complements the existing measurements for low-Z impurities (carbon and lithium), critical for the characterization of sputtering of high-Z materials.

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