H & alpha; kinematics of superbubbles and supernova remnants of the dwarf galaxy NGC 4214

We analysed the ionized gas kinematics of the dwarf galaxy NGC 4214 using high resolution Fabry-Perot interferometry observations and present a set of narrowband images in the H & alpha;, [S ii] & lambda;6717 & ANGS;, [N ii] & lambda;6584 & ANGS;, and [O iii] & lambda;5007 & ANGS; emission lines. The high-resolution Fabry-Perot observations of the H & alpha; emission line, allowed us to derive the velocity field, the velocity dispersion & sigma;, and the rotation curve of the galaxy. We also present for the first time, 3D kinematic maps of the complexes NGC 4214-I and NGC 4214-II and analysed the kinematics of the ionized gas of two new superbubbles, as well as the supernova remnants previously detected in this galaxy by other authors, in radio, optical, and X-ray emission. We computed the expansion velocities of the superbubbles and supernova remnants fitting their velocity profiles and obtained their respective physical parameters. We found that the superbubbles have an expansion velocity of & SIM;50 km s (-1), dynamical age about & SIM;2 Myr and wind luminosity L-W of & SIM;9 x 10(38) erg s(-1) produced probably by massive stars in OB associations. For supernova remnants, their expansion velocities are between & SIM;48 and & SIM;80 km s(-1) with ages of about 10(4) yr and kinetic energy of about 10(51) erg assuming they are in the radiative phase of evolution.

Automated summary

We analysed the ionized gas kinematics of the dwarf galaxy NGC 4214 using high resolution Fabry-Perot interferometry observations and obtained velocity field, velocity dispersion, and rotation curve. We also analysed the kinematics of two new superbubbles and previously detected supernova remnants in this galaxy. By fitting velocity profiles, we calculated the expansion velocities and physical parameters of these structures.