Subaru IR echelle spectroscopy of Herbig-Haro driving sources. I. H₂ and [Fe II] emission | Macquarie University ResearchOnline

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Subaru IR echelle spectroscopy of Herbig-Haro driving sources. I. H₂ and [Fe II] emission

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Title: Subaru IR echelle spectroscopy of Herbig-Haro driving sources. I. H₂ and [Fe II] emission
Related: Astrophysical journal, Vol. 641, Issue 1, p.357-372
DOI: 10.1086/500352
Publisher: University of Chicago Press
Date: 2006
Author/Creator: Takami, M
Author/Creator: Chrysostomou, A
Author/Creator: Ray, T. P
Author/Creator: Davis, C. J
Author/Creator: Dent, W. R.F
Author/Creator: Bailey, J
Author/Creator: Tamura, M
Author/Creator: Terada, H
Author/Creator: Pyo, T. S
Description: We present infrared echelle spectroscopy of three Herbig-Haro (HH) driving sources (SVS 13, B5-IRS 1, and HH 34 IRS) using Subaru IRCS. The large diameter of the telescope and wide spectral coverage of the spectrograph allowed us to detect several H₂ and [Fe II] lines in the H and K bands. These include H₂ lines arising from v = 1-3 and J = 1-11 , and [Fe II] lines with upper level energies of E/k = (1.1-2.7) × 10⁴ K. For all objects the outflow is found to have two velocity components: (1) a high-velocity (−70 to −130 km s⁻¹) component (HVC), seen in [Fe II] or H₂ emission and associated with a collimated jet; and (2) a low-velocity (−10 to −30 km s⁻¹) component (LVC), which is seen in H₂ emission only and is spatially more compact. Such a kinematic structure resembles optical forbidden emission line outflows associated with classical T Tauri stars, whereas the presence of H₂ emission reflects the low-excitation nature of the outflowing gas close to these protostars. The observed H₂ flux ratios indicate a temperature of (2-3) × 10³ K and a gas density of 10⁵ cm⁻³ or more, supporting shocks as the heating mechanism. B5-IRS 1 exhibits faint extended emission associated with the H₂-LVC, in which the radial velocity slowly increases with distance from the protostar (by ~20 km s⁻¹ at ~500 AU). This is explained as warm molecular gas entrained by an unseen wide-angled wind. The [Fe II] flux ratios indicate electron densities to be ~10⁴ cm⁻³ or greater, similar to forbidden-line outflows associated with classical T Tauri stars. Finally, the kinematic structure of the [Fe II] emission associated with the base of the B5-IRS 1 and HH 34 IRS outflows is shown to support disk-wind models.
Description: 16 page(s)
Subject Keyword: ISM, Herbig-Haro objects
Subject Keyword: ISM, individual (B5-IRS 1, HH 34 IRS, SVS 13)
Subject Keyword: ISM, jets and outflows
Subject Keyword: ISM, kinematics and dynamics
Subject Keyword: line, formation
Subject Keyword: stars, formation
Resource Type: journal article
Organisation: Macquarie University. Australian Centre for Astrobiology

Identifier: http://hdl.handle.net/1959.14/10228
Identifier: ISSN:1538-4357
Identifier: mq-rm-2006000723
Language: eng
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