Ballooning instability

The ballooning instability (a.k.a. ballooning mode instability) is a type of internal pressure-driven plasma instability usually seen in tokamak fusion power reactors^[1] or in space plasmas.^[2] It is important in fusion research as it determines a set of criteria for the maximum achievable plasma beta.^[3] The name refers to the shape and action of the instability, which acts like the elongations formed in a long balloon when it is squeezed. In literature, the structure of these elongations are commonly referred to as 'fingers'.^[4][5][6]

The narrow fingers of plasma produced by the instability are capable of accelerating and pushing aside the surrounding magnetic field in order to cause a sudden, explosive release of energy. Thus, the instability is also known as the explosive instability.^[7][8][9]

The dispersion relation is

${\displaystyle \omega (\omega -{\omega }_{*}pi)=[S{k}_{\parallel }^2-2{\mu }_0\kappa \mathrm{\nabla }P/{\beta }^2](1+b_i)V_A^2}$where

${\displaystyle S=1+n_e\delta /n_{e}c}$ ,

${\displaystyle \delta ={\beta }_e/({\omega }_{*}pi-{\omega }_{*}ep)/2(\omega -q_i{T}_{-}{\omega }_{*}pi)b_i)/(\omega -{\omega }_{*}e)-3/2(\omega -{\omega }_{*}pe)b_i/(\omega -\omega -{\omega }_{*}e)({\omega }_{B}e+{\omega }_{k}e)/2\omega }$

Template:See also The interchange instability can be derived from the equations of the ballooning instability as a special case in which the ballooning mode does not perturb the equilibrium magnetic field.^[2] This special limit is known as the Mercier criterion.^[3]

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