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Aug 8th, 2007MAGPOP Summer School Models for source counts and background spectrum, from submm to ultraviolet ingredients for counts model at submm to uv wavelengths star-formation history, luminosity functions assumed seds, parameter estimation predicted counts and background intensity
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Aug 8th, 2007MAGPOP Summer School MODELS FOR COUNTS AND BACKGROUND FROM OPTICAL TO SUBMM (Rowan-Robinson 2001, ApJ, 549, 745, 2007, in prep) * parameterized approach to star formation history * fitted to infrared and submm counts and background * 60 m luminosity function derived from PSCz data * ir and submm seds based on mixture of four components (cirrus, M82-starbust, AGN dust torus, Arp220), proportions depending on luminosity
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Aug 8th, 2007MAGPOP Summer School OTHER RECENT WORK Franceschini et al, 2001, AA 378, 1 Gispert et al, 2000, astro-ph/005554 Xu et al, 2001, ApJ 562, 179 Takeuchi et al, 2001, PASJ, astro-ph/009460 Pearson et al, 2001, MN 325, 1511 Elbaz et al, 2002, AA 384, 848 Lagache et al, 2004, ApJS 154, 112 Gruppioni et al, 2005, ApJ 318, 9 Lagache, Puget, Dole, 2005, ARAA 43, 727
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Aug 8th, 2007MAGPOP Summer School PARAMETERIZED MODEL FOR STAR FORMATION HISTORY * assumed star formation history: sfr = * (t)/ * (t o ) = exp Q{1 - t/t o }. (t/t o ) P meaning of parameters: t 0 /Q = sf (cf Bruzual,Charlot 1993) peak sfr when t/t o = P/Q, or t = P sf (essentially the Bruzual and Charlot models with an additional parameter to tune the epoch of peak star formation rate) * assume 60 µm luminosity function of the form (L) = C * (L/ L * ) 1- exp{-0.5[log 10 (1+L/L * )/ ] 2 } (Saunders et al 1990) * assume luminosity evolution with L * (t)/L * (t o ) = * (t)/ *( t o ) * for each P,Q, parameters L * (t o ) and are solved for from PSCz data (15000 IRAS galaxies with known z, S(60)≥ 0.6 Jy)
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Aug 8th, 2007MAGPOP Summer School parameterized star-formation history sfr = * (t)/ * (t o ) = exp Q{1 - t/t o }. (t/t o ) P meaning of parameters: t 0 /Q = sf peak sfr when t/t o = P/Q, or t = P sf
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Aug 8th, 2007MAGPOP Summer School assumed seds, fit to counts, predictions assumed spectral energy distribution, to convert luminosity function to other wavelengths, is mixture of cirrus, M82-starburst, AGN dust torus, Arp220-starburst components (radiative transfer models from Efstathiou et al 2000, Rowan-Robinson 1995), with proportion varying with 60 µm luminosity, to match 12-25-60-100-850 colour-colour and colour-luminosity diagrams * fit to observed counts at 60, 850 µm, and background intensity at 140, 350, 750 µm to find best (least chi 2 ) values of P,Q: Ω o PQ 0.30.73.09.0 best-fitting models then used to predict counts and background spectrum at 0.1 - 1250 m
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Aug 8th, 2007MAGPOP Summer School Infrared templates
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Aug 8th, 2007MAGPOP Summer School colour-colour, colour-luminosity (Rowan- Robinson 2001)
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Aug 8th, 2007MAGPOP Summer School Luminosity function at 850 m
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Aug 8th, 2007MAGPOP Summer School Luminosity function at 60 m
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Aug 8th, 2007MAGPOP Summer School Luminosity function at 12 m
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Aug 8th, 2007MAGPOP Summer School Luminosity function at 0.44 m
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Aug 8th, 2007MAGPOP Summer School Counts at 15 and 850 m
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Aug 8th, 2007MAGPOP Summer School Counts at 90 and 175 m
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Aug 8th, 2007MAGPOP Summer School Counts at 0.44 and 1.6 m (King and RR 2002: improved fits using some density evolution)
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Aug 8th, 2007MAGPOP Summer School Redshift distributions
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Aug 8th, 2007MAGPOP Summer School Star- formation history (Rowan-Robinson 2003b)
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Aug 8th, 2007MAGPOP Summer School differential counts at 24 m 24 m differential counts (Shupe et al, 2007, Papovich et al 2004)
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Aug 8th, 2007MAGPOP Summer School new model for 24 m counts 24 m differential counts (Shupe et al, 2007, Papovich et al 2004) new model for ir counts (developed from RR 2001 models): independent evolution for each component, evolution has to flatten off at z < 0.5 M82 cirrus dust tori
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Aug 8th, 2007MAGPOP Summer School SHADES counts at 850 m Coppins et al, 2007, astro-ph/0609039
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Aug 8th, 2007MAGPOP Summer School differential counts at 70-850 m new SWIRE 70, 160 and SHADES 850 m differential counts (Afonso-Luis et al, 2007, in prep, Coppins et al 2007)
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Aug 8th, 2007MAGPOP Summer School contribution of different fir luminosity ranges to star-formation rate blue: lg L firr /L o < 11 orange: 11 < lg L firr /L o < 12 red: 12 < lg L firr /L o green: total LeFloch et al, 2005, ApJ Reddy et al 2007
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Aug 8th, 2007MAGPOP Summer School star-formation history to z = 6 Thompson et al 2006 Reddy et al 2007
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Aug 8th, 2007MAGPOP Summer School Frank Low: 1968: the far infrared background
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Aug 8th, 2007MAGPOP Summer School the far ir and submm background Hauser and Dwek, 2001, ARAA 39, 249
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Aug 8th, 2007MAGPOP Summer School the interpretation of the extragalactic background the integrated extragalactic background spectrum is a weighted integral of the star-formation history I = c | o to (t) L Z (t) dt weighting is by K-correction L Z /L so submm weighted to higher redshift than far and mid ir submm background can give strong limit on high z sfr
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Aug 8th, 2007MAGPOP Summer School Models for infrared background Rowan-Robinson 2001
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Aug 8th, 2007MAGPOP Summer School far ir and submm background from stacking analyses
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Aug 8th, 2007MAGPOP Summer School Models for infrared background Rowan-Robinson 2007 now have good bg data at 24, 70, 160 m models, modified to fit 24 m counts, now also give better fit to background spectrum
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Aug 8th, 2007MAGPOP Summer School History of the universe
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Aug 8th, 2007MAGPOP Summer School the future Darwin TPF ALMA Herschel
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