The Footpoint‐driven Coronal Sausage Wave

Abstract

We study the excitation of MHD waves in a coronal loop as its field line footpoints are forced to follow the photospheric convective motions. By focussing on the specific case of cylindrically symmetric footpoint motions, the original problem is reduced to one in which fast waves and Alfven waves are decoupled. This allows for a full analytical treatment of the photospheric excitation of both sausage waves and of torsional Alfven waves. Previously, Berghmans & De Bruyne considered the case of tor-sional Alfven waves. In the present paper we extend that analysis to sausage waves that are excited by radially polarized footpoint motions (e.g., typical for granules). The time-dependent solution that we obtain is written as a superposition of body and leaky eigenmodes whose excitation is easily determined from the imposed footpoint motion. This provides analytical insight into the dynamics and energetics of both impulsively and periodically driven sausage waves. In each case, we explain the time evolution of the generated waves and discuss typical "signatures" that can be looked for in numerical simulations and possibly in solar observations.