Long-Slit Spectroscopy of Parsec-Scale Jets from DG Tauri

Abstract

We present observational results from optical long-slit spectroscopy of parsec-scale jets of DG Tau. From HH 158 and HH 702, the optical emission lines of Halpha, [O I] 6300, 6363, [N II] 6548, 6584, and [S II] 6716, 6731 are obtained. The kinematics and physical properties (i.e., electron density, electron temperature, ionization fraction, and mass-loss rate) are investigated along the blueshifted jet up to 650 arcseconds distance from the source. For HH 158, the radial velocity ranges from -50 to -250 km/s. The proper motion of the knots is 0.196 - 0.272 /yr. The electron density is ~ 104/cm3 close to the star, and decreases to ~ 102 /cm3 at 14 arcseconds away from the star. Ionization fraction indicates that the gas is almost neutral in the vicinity of the source. It increases up to over 0.4 along the distance. HH 702 is located at ~ 650 arcseconds from the source. It shows ~ -80 km/s in the radial velocity. Its line ratios are similar to those at knot C of HH 158. The mass-loss rate is estimated to be about ~ 10-7 Msun/yr, which is similar to values obtained from previous studies.