An Evolutionary Model of Submillimeter Galaxies Sukanya Chakrabarti NSF Fellow CFA.
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An Evolutionary Model of Submillimeter Galaxies Sukanya Chakrabarti NSF Fellow CFA
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Transcript of An Evolutionary Model of Submillimeter Galaxies Sukanya Chakrabarti NSF Fellow CFA.
An Evolutionary Model of Submillimeter Galaxies
Sukanya Chakrabarti
NSF Fellow
CFA
Merging Galaxies, Starbursts
Mergers Dusty, Infrared Bright Galaxies ULIRGs – LIR > 1012 Lsun
•Toomre & Toomre (1972): “Galactic collisions can bring deepinto a galaxy a fairly sudden supplyof interstellar material” •Hydrodynamic simulations – Mihos & Hernquist (1996) – galactic bridges & tails, starbursts
Sanders & Mirabel (1996)
Merging Galaxies, Starbursts & AGN
(fast-forwarding a few years…)
Chandra image of NGC 6240: (Komossa et al 03) Recent Hydrodynamical
Simulations with Black Holes: Springel et al. 2005
Submillimeter Galaxies• Massive galaxies, with SFR of
~500-1000 Msun/yr. Sub-mm SCUBA surveys in late 90s (Smail et al 2000, Ivison et al. 98).
• SMGs: F850 > 1 mJy. Spectroscopic redshifts for higher redshift population (z~2), median F850 ~ few mJy for z~2 population.
• Before Spitzer and SHARC-2 observations (Kovacs et al. 2006), mostly 850 micron, some 450 micron, radio observations, CO, and some mm imaging.
• X-ray observations - Alexander et al. (2005) – AGN in SMGs. Total contribution of AGN to luminosity not known.
SMM J02399-0136 (Genzel et al 03)
How I study Dusty Galaxies (Feedback DrivenMethod of Study)
Simulations of Galaxy Mergers
Compare to observations - refine and calibratemodels
Radiative TransferCalculations (RADISH): Images,SED template factory, 6 panel moviesInfrared, CO (D. Narayanan), Lyman continuum, Lyman-alpha
Outline of Talk
•Simulations with AGN Feedback and starburst feedback for local LIRGS & ULIRGs - evolution of far-IR SEDs. Cold-Warm IRAS classification.•General trends: do these two kinds of feedback affect the evolutionary history differently?
•Submillimeter Galaxies at z ~ 2: Photometric Properties: IRAC color-color plot•What is the Role of AGN in SMGs: Infrared X-ray correlationsPhoto Albums of SMGs during their lifetimes•Classfication & Evolutionary Scheme for SMGs
•Star Formation in Recent High Resolution Simulations of Quiescent Galaxies
Basics of Radiative Transfer
•Contribution functions & SEDs from Chakrabarti & McKee 2005•L/M and Source of illumination does not matter for reprocessed far-IR SED
•What does self-consistent RT calculation mean: div F =0 -> Radiative Equilibrium.
Low
Intermediate High
temperature
Optical depth
AGN
dzyxTJdzyxTB )],,([)],,([
Temperature: Radiative Equilibrium
UnresolvedSources
ResolvedSources
RADISH: Photons that emerge undergo: attenuation,scattering, reemission
Chakrabarti & Whitney 2007
General Trends: Cold-Warm Transition: Telling AGN & Starbursts Apart
•AGN feedback:disperses gasmore effectively – lowercolumns – more highfrequency flux at peak of luminosity.•Source of illumination irrelevant•F(25)/F(60) increases with mass loading efficiency of starburst winds. Chakrabarti, Cox, et al. 2007a (and in Spitzer’s MIPS & Herschel’s PACS),SB winds - Cox,Chakrabarti,et al.2007
solid line: AGN feedback. Dotted: =0.5, dashed: =0.05,dash dotted: =0.005 (focus on typical observed values (Martin 05,06,Rupke et al 05)
Predictions for Herschel: Cold –Warm Trend: Telling AGN & Starbursts Apart
From Chakrabarti et al. 2007a
IRAC color-color plot
Lacy et al. (2004) from Spitzer FLS. Dashed lines mark “AGN-demarcated region”
Hot dust
Bunny-ear shape
clustering
IRAC color-color plots
• What is the clustering in the color-color plot due to? (Chakrabarti et al. 2006b)
clustering
AGN demarcated
region
Unfolding IRAC color-color plots
• Clustering in color-color plots – correlated with time spent in region of color space and stars dominating in bolometric luminosity output.
Clustering: time
Clustering: stars
Hot dust: LBH > Lstar
IRAC color-color plot
RAC color-color plot in rest-frame RAC color-color plot for z=0.3 slice,bunny- ear shape.
Bunny-ear shape
clustering
Hot dust
Life of A Sub-mm Galaxy: Time
Towards An Evolutionary Scheme for SMGs
Chakrabarti et al. 2007b. SMG phase short-lived: Class I,II only, dust emission ~10 kpc
Transition from Class I -> Class II : SEDs of SMGscold warm
SED Fit to SMG data of z~1 galaxy inPope et al. 2006. Close to Class I phase,With BH ~ 40 % of L, SFR ~ 500 Msun/yr
SED Fit to SMG data of z~2galaxy in Pope et. al 2006.Close to Class II phase, with BH ~ 80 % of L, SFR ~ 300 Msun/yr
If you have any (radiative) transfer problems …
Please call:
1-800-RADISH
Future Directions• Interfacing Simulations & Multiwavelength
Observations to understand galaxy evolution: Future Space Missions: Herschel Space Observatory & JWST.
•High Resolution Simulations of Mergers Kazantzidis, Mayer (~few pc)•Physical Models of AGN Feedback (Ciotti & Ostriker 07)•High Resolution Simulations of Spiral Galaxies: how does spiral structure arise? Why does it persist? How does it affect star formation?
