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Improved Criterion for Sawtooth Trigger and Modelling

arXiv:1209.6321 · doi:10.1088/0741-3335/55/7/074005

Abstract

We discuss the role of neoclassical resistivity and local magnetic shear in the triggering of the sawtooth in tokamaks. When collisional detrapping of electrons is considered the value of the safety factor on axis, $q(0,t)$, evolves on a new time scale, $τ_{*}=τ_ην_{*}/(8\sqrtε)$, where $τ_η=4πa^{2}/[c^{2}η(0)]$ is the resistive diffusion time, $ν_{*}=ν_{e}/(ε^{3/2}ω_{te})$ the electron collision frequency normalised to the transit frequency and $ε=a/R_{0}$ the tokamak inverse aspect ratio. Such evolution is characterised by the formation of a structure of size $δ_{*}\simν_{*}^{2/3}a$ around the magnetic axis, which can drive rapid evolution of the magnetic shear and decrease of $q(0,t)$. We investigate two possible trigger mechanisms for a sawtooth collapse corresponding to crossing the linear threshold for the $m=1,n=1$ instability and non-linear triggering of this mode by a core resonant mode near the magnetic axis. The sawtooth period in each case is determined by the time for the resistive evolution of the $q$-profile to reach the relevant stability threshold; in the latter case it can be strongly affected by $ν_*.$

Submitted to Plasma Physics and Controlled Fusion (Varenna Fusion Theory Conference 2012)