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Do YSOs host a wide-angled wind? - NIR imaging spectroscopy of H 2 emission - 3. Spectro-Imaging using Gemini-NIFS Subaru UM, 1/30/2008 Hiro Takami (ASIAA)

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Presentation on theme: "Do YSOs host a wide-angled wind? - NIR imaging spectroscopy of H 2 emission - 3. Spectro-Imaging using Gemini-NIFS Subaru UM, 1/30/2008 Hiro Takami (ASIAA)"— Presentation transcript:

1 Do YSOs host a wide-angled wind? - NIR imaging spectroscopy of H 2 emission - 3. Spectro-Imaging using Gemini-NIFS Subaru UM, 1/30/2008 Hiro Takami (ASIAA) 2. Long-Slit Spectroscopy using Subaru-IRCS 1. Introduction

2 Young stellar objects (HST Public Pictures) X-ray binary (SS 433, Courtesy of Amy J. Mioduszewski) Nearby AGN (M87, HST Public Pictures) Distant Galaxy (Subaru Press Release)

3 Schematic view of an X-ray binary (Credit: ULTRACAM/VLT ESO) Schematic view of an AGN & jet (http://www.phys.hawaii.edu/~jgl/post/)

4 1. Introduction Key Questions (I) What is the mechanism of mass ejection/accretion? Magneto-centrifugal force (Figs: Shu et al. 1994, Cabrit et al. 1999)

5 Magnetic pressure (Uchida & Shibata 1985) 1. Introduction Key Questions (I) What is the mechanism of mass ejection/accretion?

6 Magnetic Stress (Hayashi et al. 1996) 1. Introduction Key Questions (I) What is the mechanism of mass ejection/accretion?

7 1. Introduction Key Questions (I) What is the mechanism of mass ejection/accretion? 1” (140 AU) (HST Public Pictures) XZ Tau (Goodson et al. 1999) Angular resolutions of present facilities are not sufficient to resolve the central engine.

8 1. Introduction Key Questions (II) How does the outflow propagate? Collimated jet (ESO Archive) Molecular Outflow (Lee et al. 2000) Are molecular outflows driven by a collimated jet, or an unseen wide-angled wind?

9 1. Introduction Observations of a wide-angled wind would be useful to to tackle these issues, but they are not directly observed. Line + Cont. Line Shocked H 2 at the cavity walls? Shocked H 2 at the cavity walls? H 2 2.12 μ m @ L1551-IRS5 (Davis et al. 2002) UV H 2 @ T Tau (Saucedo et al. 2003)

10 R=1.1x10 4 (  v ~30 km s -1 ) for Echelle mode, 0 ”.3 slit Instruments Subaru-IRCS Seeing ~ 0 ”.7 (AO was not used for our observations) IFU (FOV=3 ” x3 ” ), R=5x10 3 (  v ~60 km s -1 ) Gemini-NIFS AO-corrected FWHM=0 ”.1-0 ”.2

11 2. Long-Slit Spectroscopy using Subaru-IRCS One of the most active T Tauri stars known. H 2 emission toward DG Tau (Takami et al. 2004, A&A) (Bacciotti et al. 2000) +50 -70-200-320-440 (km s -1 ) (Pyo et al. 2003)

12 2. Long-Slit Spectroscopy using Subaru-IRCS One of the most active T Tauri stars known. H 2 emission toward DG Tau (Takami et al. 2004, A&A) Before this study, only 1 star was known as a T Tauri star with NIR H 2 emission associated with outflow. Emission from the other objects are associated with the disk (or quiescent gas)

13 2. Long-Slit Spectroscopy using Subaru-IRCS Spectral Resolution (30 km s -1 ) (Along the Jet) Continuum (seeing) H2H2 H 2 emission toward DG Tau (Takami et al. 2004, A&A)

14 2. Long-Slit Spectroscopy using Subaru-IRCS (Perpendicular to the Jet) H2H2 Continuum (seeing) H 2 emission toward DG Tau (Takami et al. 2004, A&A) 0”.3 0”.9 0”.6

15 2. Long-Slit Spectroscopy using Subaru-IRCS Blueshifted (~15 km s -1 ) Measured width (~0 ”.6) is comparable to the offset (~0 ”.3) These suggest that warm H 2 outflow result from a wide-angled wind. H 2 emission toward DG Tau (Takami et al. 2004, A&A) Shock-excited UV/X-ray excitation scenarii would not give momentum flux as a T Tauri star

16 2. Long-Slit Spectroscopy using Subaru-IRCS H 2 & [Fe II] emission @ HH sources (Takami et al. 2006, ApJ) Observed kinematic structures are similar to T Tauri stars (but those at HH sources show lower excitation) V LSR (km s -1 ) 100-300-200-1000200300 0 1 2 -2 X (arcsec) [Fe II] 1.64 um H 2 2.12 um Jet V LSR (km s -1 ) 300 100-300-200-1000200 0 1 2 -2 [Fe II] 1.64 um H 2 2.12 um Jet

17 2. Long-Slit Spectroscopy using Subaru-IRCS Acceleration over hundreds AU suggest that this is an entrained component by an unseen wide-angled wind (or jet). V LSR (km s -1 ) 300 100-300-200-1000200 0 300 600 -300 X (AU) V LSR (km s -1 ) 300 100-300-200-1000200 V LSR (km s -1 ) 300 100-300-200-1000200 V LSR (km s -1 ) 300 100-300-200-1000200 V LSR (km s -1 ) 300 100-300-200-1000200 V LSR (km s -1 ) 300 100-300-200-1000200 0 300 600 -300 X (AU) H 2 & [Fe II] emission @ HH sources (Takami et al. 2006, ApJ)

18 3. Integral-Field Spectroscopy using Gemini-NIFS H 2 emission toward six T Tauri stars (Beck, McGregor, Takami, Pyo 2008, ApJ) H 2 (color) Continuum (blue contour) jet

19 3. Integral-Field Spectroscopy using Gemini-NIFS H 2 emission toward six T Tauri stars (Beck, McGregor, Takami, Pyo 2008, ApJ) A variety of morphology associated with jets, winds and ambient gas Excitation temperature ~2000 K → shock excited

20 3. Integral-Field Spectroscopy using Gemini-NIFS Detailed Study for HL Tau (Takami et al. 2007, ApJL) Continuum (1.64  m) (original)(unsharp-masked) 1” E N (x10) 1” (x10) (x5) H2H2 H2H2 [Fe II]

21 H 2 (gray) [Fe II] (contour) H 2 (gray) Cont. 1.64 μ m (contour) [Fe II]H2H2 -200-1000100 V Hel (km s -1 ) Spectral resolution 1”

22 3. Integral-Field Spectroscopy using Gemini-NIFS Detailed Study for HL Tau (Takami et al. 2007, ApJL) Presence of “ micro molecular bipolar H 2 flow ” is revealed H 2 emission in some regions are associated with the cavity walls. There is no evidence for kinematic interaction with the collimated jet. A wide-angled wind interacts with ambient material, opening up cavities.

23 Conclusion and Future Directions NIR H 2 emission toward some active YSO results from an unseen wide-angled wind Extensive studies would be useful to discuss best strategy for ALMA studies (Dutrey et al. 1997)(Lee et al. 2006) CO J=2-1 (green) NIR H 2 (blue) SO N J =5 6 -4 5 (red) CO J=1-0 (white) SiO J=2-1 (white)

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