GALACTIC WIND IN THE NEARBY STARBURST GALAXY NGC 253 OBSERVED WITH THE KYOTO3DII FABRY-PEROT MODE

We have observed the central region of the nearby starburst galaxy NGC 253 with the Kyoto Tridimensional Spectrograph II Fabry-Perot mode in order to investigate the properties of its galactic wind. Since this galaxy has a large inclination, it is easy to observe its galactic wind. We produced the H alpha, [N II]lambda 6583, and [S II]lambda lambda 6716,6731 images, as well as their line-ratio maps. The [N II]/H alpha ratio in the galactic-wind region is larger than those in H II regions in the galactic disk. The [N II]/H alpha ratio in the southeastern filament, a part of the galactic wind, is the largest and reaches about 1.5. These large [N II]/H alpha ratios are explained by shock ionization/excitation. Using the [S II]/H alpha ratio map, we spatially separate the galactic-wind region from the starburst region. The kinetic energy of the galactic wind can be sufficiently supplied by supernovae in a starburst region in the galactic center. The shape of the galactic wind and the line-ratio maps are nonaxisymmetric about the galactic minor axis, which is also seen in M82. In the [N II]lambda 6583/[S II]lambda lambda 6716,6731 map, the positions with large ratios coincide with the positions of star clusters found in the Hubble Space Telescope observation. This means that intense star formation causes strong nitrogen enrichment in these regions. Our unique data of the line-ratio maps including [S II] lines have demonstrated their effectiveness for clearly distinguishing between shocked-gas regions and starburst regions, determining the extent of galactic wind and its mass and kinetic energy, and discovering regions with enhanced nitrogen abundance.