Density Fluctuation Analysis of MHD Instabilities In WHAM
POSTER
Abstract
Density fluctuations are a sign of magnetohydrodynamic (MHD) activity in axisymmetric magnetic mirror devices, and understanding these fluctuations is essential to mitigating the underlying instabilities. Without finite Larmor radius stabilization from neutral beam injected fast ions, the most unstable modes are high-azimuthal-mode-number (high-m) flute instabilities. These modes are robustly observed in fast visible imaging of the plasma boundary in WHAM. This work compares visual observations with data from two complementary density diagnostics: a single-pass heterodyne interferometer with a 15 MHz intermediate frequency, and an array of secondary electron emission detectors that measure neutral beam shine-through. Channel-to-channel correlation analysis is used to infer spatial structure and dynamics of the flute modes. These findings inform the design of future diagnostics aimed at higher-resolution characterization of the mode spectrum and improved understanding of MHD behavior in the mirror configuration.
Presenters
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Benjamin N Ard
University of Wisconsin–Madison
Authors
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Benjamin N Ard
University of Wisconsin–Madison
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Kunal Sanwalka
University of Wisconsin - Madison
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Douglass A Endrizzi
Realta Fusion
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Jonathan D Pizzo
University of Wisconsin - Madison
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Aaron Tran
University of Wisconsin-Madison, University of Wisconsin–Madison
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Jay K Anderson
University of Wisconsin Madison - Realta Fusion, Realta Fusion; University of Wisconsin - Madison, University of Wisconsin - Madison
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Cary B Forest
University of Wisconsin - Madison, Realta Fusion; University of Wisconsin - Madison