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The Red MSX Source Survey

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The Red MSX Source Survey. RMS Team: Stuart Lumsden, Rene Oudmaijer, James ... Toby Moore, James Allsopp (Liverpool JMU) Cormac Purcell, Michael Burton (UNSW) ... – PowerPoint PPT presentation

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Title: The Red MSX Source Survey


1
The Red MSX Source Survey
Melvin Hoare University of Leeds
  • RMS Team
  • Stuart Lumsden, Rene Oudmaijer, James Urquhart,
    Ant Busfield, Tamara King, Andrew Clarke (Leeds)
  • Toby Moore, James Allsopp (Liverpool JMU)
  • Cormac Purcell, Michael Burton (UNSW)
  • Zhibo Jiang (PMO)

2
Outline
  • Introduction
  • The need for large systematic samples
  • The RMS Survey
  • Galaxy-wide survey for massive YSOs
  • Progress and Initial Results
  • Conclusions
  • Next generation galactic plane surveys

3
Massive Young Stellar Objects
  • Luminous (gt104 L), embedded IR source
  • Bipolar outflow
  • Often has masers
  • Compact, ionised wind
  • IR emission lines from wind (and disc?)
  • Well known examples number in the tens

GL 2591 JHK
4
Evolutionary Outline
  • Hot Core à YSO à UCHII à OB Star
  • SED
  • Sub-mm à Mid-IR à Near-IR à Visual
  • Masers
  • CH3OH à H2O à OH
  • Radio
  • No radio à Weak Radio à Strong Radio

5
Surveys for MYSOs
  • Too obscured in near-IR
  • Radio continuum too weak
  • No single maser transition always present
  • Molecular cores do not necessarily contain YSOs
  • Need to use IR where bulk of energy emerges
  • IRAS-based searches suffer from confusion

6
The MSX Galactic Plane Survey
  • 8, 12, 14 and 21mm, 18² resolution, blt5o
  • Colour-select together with 2MASS data
  • Delivers 2000 candidates

W75 N Region
7
Massive YSOs
C stars
UCHII regions
OH/IR stars
PN
8
Multi-wavelength Ground-based Follow-up Campaign
  • Identify and eliminate confusing sources
  • Generate sample of UCHII regions
  • Begin characterisation of the genuine massive YSOs

9
Radio Continuum
  • Identify UCHIIs and PN
  • 5 GHz, 1² resolution at VLA ATCA
  • 2000 objects observed - complete

Compact H II Region
Massive YSO candidate
10
Mid-IR
  • Identify UCHIIs and MYSOs in close proximity
  • 10mm, 0.8² resolution at UKIRT and ESO 3.6m, 470
    objects observed GLIMPSE

11
Millimetre lines
  • Identify nearby low-L YSOs, evolved stars
  • 13CO at Mopra, Onsala, JCMT, PMO GRS
  • 1900 targets observed
  • Resolving distance ambiguities with H I
  • See poster 21 by Busfield

12
Near-IR
  • Identify remaining evolved stars
  • K-band imaging at UKIRT ANU 2.3m 2MASS
  • 400 targets observed
  • HK band spectroscopy at UKIRT
  • 120 targets observed

13
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14
Example
  • L 5 x 104 L, d 11 kpc
  • Radio quiet (lt 1 mJy)

15
GLIMPSE
Triggered by SNR? (Slane et al. 1999)
2MASS
16
Statistical Studies
  • Luminosity function of MYSOs and UCHIIs (RG,
    environment)
  • Lifetime of MYSO phase (L)
  • Clustering of MYSOs and UCHIIs
  • Triggering by UCHIIs, OB stars, SNRs
  • RMS is wide, shallow counterpart the narrower and
    deeper GLIMPSE survey

17
Conclusions
  • The RMS survey will deliver 500 massive YSOs
    over the whole galaxy
  • Allow the systematic investigations of e.g.
  • Infall/outflow with ALMA/CARMA
  • Accretion/winds with VLT(I), Gemini, MROI
  • Jets/equatorial winds with e-MERLIN/EVLA
  • Sample will be available at www.ast.leeds.ac.uk/RM
    S

18
Next Generation Plane Surveys
  • Deeper and higher spatial resolution
  • Complete wavelength coverage
  • Common areas
  • Matched sensitivities and resolutions
  • GLIMPSE is the starting point

19
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20
H II region MYSO
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