Magnetic balltracking: Tracking the photospheric magnetic flux

Context. One aspect of understanding the dynamics of the quiet Sun is to quantify the evolution of the flux within small-scale magnetic features. These features are routinely observed in the quiet photosphere and were given various names, such as pores, knots, magnetic patches. Aims. This work presents a new algorithm for tracking the evolution of the broad variety of small-scale magnetic features in the photosphere, with a precision equal to the instrumental resolution. Methods. We have developed a new technique to track the evolution of the indivichral magnetic features from magnetograms, called 1magnetic balltrackirtg. It quantifies the flux of the tracked features, and it can track the footpoints of magnetic field lines inferred from magnetic field extrapolation. The algorithm can detect and quantify flux emergence, as well as flux cancellation. Results. The capabilities of magnetic ball tracking are demonstrated with the detection and the tracking of two cases of magnetic flux emergence that lead to the brightening of X-ray loops. The maximum emerged flux ranges from 10(18) Mx to 10(19) Mx (unsigned flux) when the X-ray loops are observed.