A multi-modal photodiode diagnostic with overlapping tangential views was developed for LTX-β and demonstrated beam-synchronous signals in SXR, Lyman-α, and AXUV channels during 12-20 keV hydrogen beam operation.
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3 Pith papers cite this work. Polarity classification is still indexing.
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physics.plasm-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Two-fluid nonlinear modeling yields modified scaling coefficients for error-field penetration threshold versus density, temperature, viscous time, toroidal field, and rotation, with a minimum threshold near zero electron fluid frequency.
MHD simulations demonstrate that edge-localized antenna drive can excite core responses in tokamak plasmas through continuum plateaus and volumetric focusing, without requiring core-localized drive or exact resonance.
citing papers explorer
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Photodiode based multi-modal diagnostic for low-energy neutral beam injection in the LTX-$\beta$ spherical tokamak
A multi-modal photodiode diagnostic with overlapping tangential views was developed for LTX-β and demonstrated beam-synchronous signals in SXR, Lyman-α, and AXUV channels during 12-20 keV hydrogen beam operation.
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Nonlinear modeling of the scaling law for the m/n=3/2 error field penetration threshold
Two-fluid nonlinear modeling yields modified scaling coefficients for error-field penetration threshold versus density, temperature, viscous time, toroidal field, and rotation, with a minimum threshold near zero electron fluid frequency.
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Study of Low-Frequency Core-Edge Coupling in a Tokamak: II. Spatial Channeling & Focusing In Antenna-Driven MHD
MHD simulations demonstrate that edge-localized antenna drive can excite core responses in tokamak plasmas through continuum plateaus and volumetric focusing, without requiring core-localized drive or exact resonance.