Astrophys. J., 553, 618-632 (2001/June-1)
From infall to rotation around young stellar objects: a transitional phase with a 2000 AU radius contracting disk?
Abstract (from CDS):
Evidence for a transitional stage in the formation of a low-mass star is reported, intermediate between the fully embedded and the T Tauri phases. Millimeter aperture synthesis observations in the HCO+ J=1-0 and 3-2, HCN 1-0, 13CO 1-0, and C18O 1-0 transitions reveal distinctly different velocity fields around two embedded, low-mass young stellar objects. The 0.6 M☉ of material around TMC 1 (IRAS 04381+2517) closely follows inside-out collapse in the presence of a small amount of rotation (∼3 km.s–1.pc–1), while L1489 IRS (IRAS 04016+2610) is surrounded by a 2000 AU radius, flared disk containing 0.02 M☉. This disk shows Keplerian rotation around a ∼0.65 M☉ star and infall at 1.3(r/100 AU)–0.5 km.s–1, or, equivalently, sub-Keplerian motions around a central object between 0.65 and 1.4 M☉. Its density is characterized by a radial power law and an exponential vertical scale height. The different relative importance of infall and rotation around these two objects suggests that rotationally supported structures grow from collapsing envelopes over a few times 105 yr to sizes of a few thousand AU, and then decrease over a few times 104 yr to several hundred AU typical for T Tauri disks. In this scenario, L1489 IRS represents a transitional phase between embedded young stellar objects and T Tauri stars with disks. The expected duration of this phase of ∼5% of the embedded stage is consistent with the current lack of other known objects like L1489 IRS. Alternative explanations cannot explain L1489 IRS's large disk, such as formation from a cloud core with an unusually large velocity gradient or a binary companion that prevents mass accretion onto small scales. It follows that the transfer and dissipation of angular momentum is key to understanding the formation of disks from infalling envelopes.
Stars: Circumstellar Matter - ISM: Kinematics and Dynamics - ISM: Molecules - Radio Lines: ISM - Stars: Formation
Status at CDS:
In the abstract IRAS 04381+2517 does not exist, IRAS associated with TMC 1 is IRAS 04381+2540. p. 619 : Quasars 0238+166 and 0530+135 are QSO 0235+164 and QSO J0530+135 respectively (2000 coordinates).
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