12.6 Resonant surface of a perturbation

Equation (275) indicates that, for the differential equation (271), there is a resonant response to a perturbation e^{i(m𝜃−nζ)} on a magnetic surface with m − nq = 0. Therefore, the magnetic surface with q = m∕n is called the “resonant surface” for the perturbation e^{i(m𝜃−nζ)}.

The phase change of the perturbation e^{i(m𝜃−nζ)} along a magnetic field is given by mΔ𝜃 − nΔζ, which can be written as Δ𝜃(m−nq). Since m−nq = 0 on a resonant surface, this indicates that there is no phase change along a magnetic field line on a resonant surface, i.e., the parallel wavenumber k_∥ is zero on a resonant surface.