Context. We present high-spatial and medium-spectral resolution imaging and spectroscopy of the core of the Seyfert II galaxy NGC 1068, obtained in the N-band spectral range with the VLT/VISIR (the VLT Imager and Spectrometer in the InfraRed). Spectra were acquired in the ArIII 8.99 mu m, SIV 10.51 mu m and NeII 12.81 mu m filters for two orientations of the long slit (2' x 0 ''.4): PA = -15 degrees and 90 degrees oriented N to E.
Aims. The spatial evolution of the [ArIII]+[MgVII], [SIV] and [NeII] lines are investigated to constrain the gas dynamics inside the narrow line region (NLR), and to deduce the geometry and physics of the ionization cones.
Methods. Spectra are extracted in 0 ''.381 steps along the two slit positions and we obtain line parameters from fits with Gaussian profiles. The computed line ratios are compared to photoionization models.
Results. Lines are resolved and detected in emission up to similar to 3 '' NW and similar to 3 '' SE of the core, generally double-peaked. Features trace an outflow with radial velocities up to 103 km s(-1), well reproduced by a hollow biconical structure associated with the ionization bicone of NGC 1068. It is inclined at similar to 11 degrees and the maximum aperture is similar to 80 degrees, in good agreement with optical spectroscopic studies.
Conclusions. The velocity profiles traced in the MIR are interpreted as evidence for a gas outflow along the edges of the ionization bicones. The comparison of line ratios with standard dust-free and dusty, radiation pressure-dominated photoionization models shows that the associated gas metallicity is close to the solar value and points to a relatively weak ionization parameter of a typical value U-0 = 10(-2.6) at PA = -15 degrees along the ionization bicone.

• 出版日期2008-4