CONSTRAINTS ON THE OUTFLOW IN S106IR FROM HE-I 2.058-MU-M ABSORPTION-LINE AND H-I EMISSION-LINE PROFILES

High spectral resolution observations of the massive young stellar obj ect S106IR powering the bipolar H II region Sh-2 106 are presented and discussed. The new data, obtained at the United Kingdom Infrared Tele scope using Cooled Grating Spectrometer No. 4, include the first detec tion of the He I 2(1)S-2(1)P 2.058-mum line on-source and show it to b e a blueshifted absorption feature, indicative of outflow beginning cl ose to the surface of the young star. Weak emission in the He I 4(3,1) D-5(3,1)F 4.038-, 4.041-mum lines has also been detected and is used t o remove the contaminating He I 4(3,1)F-5(3,1)G 4.049-mum line from th e wing of Bralpha. Low-contrast, high-velocity wings are seen in each of the H I emission lines Bralpha, Pfgamma and Brgamma. Their relative velocity widths, including asymmetries apparent in Bralpha and Pfgamm a, are consistent with formation in an optically thick, accelerating s tellar wind. From the maximum blueshift observed in Bralpha, lower lim its of upsilon(infinity) > 340 km s-1 and M > 2.7 x 10(-6) M. yr-1 are derived. It is proposed that the narrower core component in the H I e mission lines is produced by a different body of gas that is optically thin to infrared line emission, but optically thick to continuum emis sion at radio wavelengths. The two regions of IR line formation can be tied together in a model wherein the high-M transonic wind is deceler ated by extensive mass-loading far beyond the volume in which it is ac celerated: on a still larger scale, this outflow presumably merges wit h the spatially resolved bipolar flow. To reconcile the simultaneous o bservation of He I 2.058-mum absorption directly toward S106IR and emi ssion in the same line off-source, significant equatorial enhancement of the mass-loss rate is demanded.