We present a morphokinematic analysis based on high-resolution long-slit echelle spectroscopy of the N iiλ6583 line and narrowband imaging. Position–velocity diagrams reveal asymmetric expansion and localized kinematic features. We derive a systemic velocity of VsysLSR=−25±1 km s−1 (VsysHEL=−34±1 km s−1) and a main shell expansion velocity of Vexp=22±1 km s−1. Three-dimensional modeling indicates an ellipsoidal main body surrounded by a thin shell, two ear-like protrusions, and additional small-scale structures. The corresponding kinematic ages are 3600±700 yr for the ellipsoid and ring, and 7500±1000 yr and 8800±1500 yr for the two opposite ear-like protrusions, respectively, indicating that these outer structures predate the main nebular envelope. The kinematic asymmetry and enhanced emission regions suggest evolution within a non-uniform ambient medium. At the same time, the presence of collimated ear-like structures is consistent with shaping influenced by binary interaction, where earlier outflows preceded the ejection of the dense shell. NGC 6563 therefore appears to be a dynamically evolved system shaped by the combined effects of episodic mass ejection and environmental interaction.
Al et al. (Mon,) studied this question.