Parameter scalings for core molybdenum density derived from x-ray observations of the neon-like Mo^32+ 4D transition in Alcator C-Mod tokamak plasmas. The dataset was authored by J.E. Rice, C.J. Perks, R. Diab, N.T. Howard, J.W. Hughes, E.S. Marmar, and S.J. Wukitch from the Plasma Science and Fusion Center Dataverse. It was last updated on 2026-05-27.
Use Cases
- Modeling impurity transport based on molybdenum density scaling with electron density.
- Estimating effective charge (Z_eff) in future fusion devices based on ICRF heating power relationships.
- Analyzing differences in metal content between Ohmic, L-mode, and I-mode plasma regimes.
- Validating simulations of x-ray emission from high-Z impurities in tokamaks.
Strengths
- Authored by multiple researchers from a recognized fusion research center.
- Focuses on a specific high-Z impurity (molybdenum, Z=42) relevant to fusion reactor walls.
- Explicitly discusses scaling relationships with electron density and ICRF power.
Limitations
- Column-level documentation is absent; field semantics must be inferred after download.
- Row count is unknown, which may limit suitability assessment.
- Freshness should be verified as the last update date is in the future (2026-05-27).
Provenance
- Source
- Plasma Science and Fusion Center Dataverse
- Collection Method
- Derived from x-ray observations of the neon-like Mo^32+ 4D transition in the Alcator C-Mod tokamak.
- Freshness
- Last updated 2026-05-27 17:20:40