The thermal and non-thermal gaseous halo of NGC 5775

In this letter we present first results from spectroscopic observations of Diffuse Ionized Gas (DIG) in the halo of NGC 5775 obtained with FORS 1(1) a ttached to UT1/Antu of the Very Large Telescope (VLT). At our slit position perpendicular to the disk (41 " SE of the nucleus) the emission of [N II] lambda 6583, [O III] lambda 5007, and [O II] lambda 3727 is detected out to 9 kpc into the halo, allowing possible ionization mechanisms of the DIG to be examined. Photoionization models which assume a dilute radiation field are able to fit the data for the disk, but they cannot account for the Line ratios measured in the halo (e.g., [O I]/H alpha or [O II]/H alpha). In pa rticular they fail to predict the observed increase of [O III] lambda 5007/ H alpha with increasing \z\. The most striking result concerns the kinemati cs of the halo gas. Velocities at high galactic latitudes drop from the mid plane value to reach the systemic velocity at z approximate to 9 kpc. An an alysis of VLA archive data of the polarized radio-continuum emission at 4.8 6 GHz and 1.49 GHz reveals that magnetic fields in the halo have a strong c omponent perpendicular to the disk and are aligned with the H alpha and rad io-continuum spurs in the halo. This can result either from a strong wind a ction or, more likely, from the generation of dipolar magnetic fields. We b riefly discuss the interrelation of the magnetic field structure and gas dy namics, in particular the role of magnetic fields in gas outflows, as well as the possible heating of DIG by magnetic reconnection.