| Title : "Extremely Collimated Outflow In Taurus" | |||||
| Authors : | |||||
| Abstract : | |||||
| We present the first case of a highly collimated, extremely high velocity | |||||
| bipolar outflow in Taurus. It is powered by the low-luminosity | |||||
| (0.4 $L_\odot$) source IRAS 04166+2706 and contains gas accelerated up | |||||
| to 50 km s$^{-1}$ with respect to the ambient cloud | |||||
| both toward the blue and the red (uncorrected for projection). | |||||
| At the highest velocities, the outflow collimation | |||||
| factor exceeds 20, and the gas displays a very high degree of spatial | |||||
| symmetry. This very fast gas presents multiple maxima, and most likely | |||||
| arises from the acceleration of ambient material by a time-variable | |||||
| jet-like stellar wind. When scaled for luminosity, the | |||||
| outflow parameters of IRAS 04166 | |||||
| are comparable to those of other extremely high | |||||
| velocity outflows like L1448, indicating that even | |||||
| the very quiescent star-formation mode | |||||
| of Taurus can produce objects powering very | |||||
| high energy flows ($L_{mec}/L_* > 0.15$). | |||||