evidence for a population of high redshift submillimeter galaxies
DESCRIPTION
EVIDENCE FOR A POPULATION OF HIGH REDSHIFT SUBMILLIMETER GALAXIES. Joshua D. Younger Harvard/CfA. P. Yamaguchi. J. D. Younger , G. G. Fazio, J. Huang (CfA) M. S. Yun, G. Wilson, T. Perera, K. Scott, J. Austermann (U Mass) - PowerPoint PPT PresentationTRANSCRIPT
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EVIDENCE FOR A POPULATION OF HIGH REDSHIFT
SUBMILLIMETER GALAXIESJoshua D. Younger
Harvard/CfA
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P. Yamaguchi
J. D. Younger, G. G. Fazio, J. Huang (CfA)
M. S. Yun, G. Wilson, T. Perera, K. Scott, J. Austermann (U Mass)
M. L. N. Ashby, M. A. Gurwell, K. Lai, A. B. Peck, G. Petitpas, D. Wilner (CfA)
D. Iono, K. Kohno, R. Kawabe (NAOJ)
D. Hughes, I. Aretzaga (INAOE),
J. Lowenthal (Smith)
T. Webb (McGill),
A. Martinez-Sansigre, E. Schinnerer, V. Smolcic (MPIA)
S. Kim (Sejong Univ)
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20-30% of FIRB Resolved
Coppin et al. (2006)
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Hughes et al. (1998)
~80% SF is obscured
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INTRODUCTION
• Millimeter and submillimeter (submm) observations are critical to our understanding of galaxy birth and evolution in the early Universe.
• Studies of the diffuse far-IR and millimeter cosmic background radiation have shown this radiation is due to discrete sources dominated by luminous and ultraluminous infrared/submm galaxies at high redshift
• Multiwavelength studies of these galaxies have shown that they are massive, young objects in the process of formation, with very high star formation rates.
• However progress in understanding these galaxies has been hampered by their faintness at optical wavelengths and the poor angular resolution (~ 14 arcsec) of submm cameras.
• SMA and Spitzer Space Telescope (infrared) observations of these galaxies can provide new insight into the true nature of these sources.
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SMG COUNTERPART IDENTIFICATION
• Radio continuum• IRAC counterpart
– Probability of association
– N/MIR colors
• Redshifted PAH emission
1100m
3.6m
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OBSERVATIONS
• AzTEC camera observations (1.1 mm wavelength; 18 arcsec resolution) on the JCMT of the COSMOS field (0.15 deg2) detected 44 submm galaxies (SMGs) above 3.5.
• SMA interferometric observations (890 m wavelength; 2 arcsec resolution) of the seven brightest AzTEC sources detected all seven SMGs and pinpointed their location to 0.2 arcsec.
• Follow-up observations by HST (ACS), SPITZER (IRAC and MIPS), and Very Large Array (VLA) revealed the detailed properties of these sources.
The AzTEC/COSMOS Survey(Scott et al. 2007)
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OVERVIEW OF RESULTS
• We detect all seven targets at high significance (>6)
• All seven SMA sources have IRAC 3.6mm counterparts
• Only a fraction (two/three) have optical counterparts
• For the five radio-dim sources, the submm, infrared and optical properties of these counterparts suggest higher redshift.– Higher submm/radio fluxes– Systematically low IRAC fluxes– No MIPS detection at 24 m
AzTEC1100m
ACS814nm
IRAC3.6m
SMA890m
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AzTEC1
AzTEC2
AzTEC3
AzTEC4
AzTEC5
AzTEC6
AzTEC7
890m 20cm 24m 3.6m 0.8m
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ASTROMETRY OF SMA/AzTEC SOURCES
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PHOTOMETRY OF SMA/AzTEC SOURCES
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RADIO/SMM FLUX RATIOS
Consistent with higher average/median redshift
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IRAC COUNTERPARTS
Consistent with higher average/median redshift
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CONCLUSIONS• From AzTEC and SMA observations, evidence for a
population of SMGs that peak earlier in cosmic time (z > 3)– Constraints on galaxy formation and dust production
models.
• From SMA imaging, brightest SMGs are single compact point-sources– Constraints on the physical mechanism driving far infrared
emission and star formationHighlights the power of SMA to localize SMGs with sufficient accuracy for follow-up observations with
HST and Spitzer Space Telescope.
Younger, Fazio, et al. (2007) [astro-ph/0708.1020]
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HIGH-Z SMGs IN OTHER SAMPLES - SHADES
• We need bright high-significance targets targets (F850 > 10 mJy or so)– wide areas – uniform coverage
• SHADES is a complete, unbiased large-area submm survey– ~800 arcmin2 850m map of two fields (LH, SXDF)– Represents > 3 years of observations with SCUBA– Final map has rms ~ 2 mJy– Massive multiwavelength followup (VLA, Subaru,
Spitzer, Keck, XMM, Chandra, …)
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THE SHADES SURVEY
Image Credit: J. Dunlop
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THE TARGET: LH850.02
• Brightest 850/1100m source in the LH
• Two likely radio counterparts, one bright proximate MIPS source
• We detected LH850.02 at high significance (>6) with the SMA
• Compact, single point source singles out one radio counterpart
Younger, Dunlop, Peck, Ivison et al. [in prep.]
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MULTIWAVELENGTH COUNTERPARTS
SMA 890mPOSITION
R-band 3.6m 24m 20cm
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SEEMS TO BE PART OF SAME POPULATION
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SEEMS TO BE PART OF SAME POPULATION
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CONCLUSIONS
• (from a sample of 1)• Clean illustration of problems with SMG
counterpart identification• Similar high-z SMG is also the brightest 850m
source in a wide-area blank field survey– High-z nature of sources likely related correlated
more closely with brightness/luminosity than the wavelength in which they were selected
– Brightest SMGs may be the most distant
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WHAT TO DO NEXT?
• SMGs in a biased environment: MS0451 AzTEC sources (observing now)
• Further followup of AzTEC/COSMOS, (accepted for winter ‘09)
• Higher-resolution follow-up (accepted for winter ‘09) • CARMA observations of AzTEC/COSMOS sources
(submitted)• CSO photometry at 350 m (submitted) • SCUBA-2 Survey (both 450 and 850m)• Herschel Survey at 100-500m