Mid-IR Diagnostics of Star Formation in QUEST Sample DongChan Kim - University of Virginia QUEST=Quasar Ultraluminous Infrared Galaxies (ULIRGs) Evolution.

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Presentation transcript:

Mid-IR Diagnostics of Star Formation in QUEST Sample DongChan Kim - University of Virginia QUEST=Quasar Ultraluminous Infrared Galaxies (ULIRGs) Evolution Study PI: Sylvain Veilleux (U. of Maryalnd) D. Sanders, D. Rupke, A. Stockton, R. Joseph, J. Barnes (IfA/U. of Hawaii) J. Mazzarella, S. Lord (Caltech/IPAC) R. Genzel, E. Sturm, D. Lutz, A. Contursi, M. Schweitzer, L. Tacconi (MPE) H. Netzer, A. Sternberg (Tel Aviv University) A. Baker (Rutgers University) C. Mihos (Case Western Reserve University)

QUEST Goal: evolutionary connection between the ULIRGs and QSOs (ULIRGs -> QSOs, Sanders et al 1988). This talk: 6 Mid-IR diagnostic methods to quantify contribution of star formation and AGN activities to the bolometric luminosity of the ULIRGs and PG QSOs.

6 Mid-IR diagnostic methods 1. EW (PAH 7.7µm) 2. [Ne V] / [Ne II] 3. [O IV] / [Ne II] 4. f 30 /f 15 ratio 5. Modified Laurent et al. method 6. L(MIR)/L(FIR) Sample: SPITZER IRS spectra of 74 ULIRGs and 34 PG QSOs.

#1. EW (PAH 7.7 um) (Genzel et al. 1998, Lutz et al. 1999) Sample spectral decomposition

Distribution of EW (PAH 7.7µm) Pure star-burst zero point: average value of the most starburst-like ULIRGs in our sample EW (PAH 7.7um)] = 5.5 Pure AGN zero point: EW (PAH 7.7um) = 0

#2 & #3. [Ne V] / [Ne II] & [O IV] / [Ne II] [Ne V] 14.3um (   97 eV)  Good indicator of AGN activity. [O IV] 25.9um (   55 eV) (Lutz et al. 1998; Smith et al. 2004; Abel & Satyapal 2008) Pure AGN zero point: average value of the FIR-undetected (unobscured) PG QSOs in our sample log([Ne V]/[Ne II]) = 0.1 log([O IV]/[Ne II]) = 0.6 squares: LUIRGs – HII, L, Sy2, Sy1 circles: PG QSOs stars: ISO starburst galaxies

#4. f 30 /f 15 continuum ratio Pure starburst zero point log (f 30 /f 15 ) = 1.35 Pure AGN zero point log (f 30 /f 15 ) = 0.0

#5. f(6.2um PAH)/f( um) vs. f(14-16um)/f( um) (Laurent et al. 2000, Armus et al. 2007) Pure starburst zero point: from Armus et al. (2007) Pure AGN zero point: average value of the FIR-undetected PG QSOs.

#6. L(MIR) / L(FIR) Pure starburst zero point: log[L(MIR)/L(FIR)] = Pure AGN zero point log[L(MIR)/L(FIR)] = 0.35

Bolometric corrections Calculated AGN and starburst fractions from 6 methods do not refer to the bolometric luminosity. Ex: AGN percentage from [Ne V]/[Ne II] refers to AGN fractional contributions to the [Ne II] luminosity, and Starburst percentage from EW (PAH 7.7um) refers to starburst fractional contribution to the continuum luminosity ~7.7um.

Comparison of AGN fractional contributions 6 independent methods give consistent results within +/- 15%.

Distribution of starburst contributions to the bolometric luminosity. Averaged results of 6 methods: ULIRGs: 61.2+/-21.1% PG QSOs: 5.6+/-6.5%

AGN fractional contributions to the bolometric luminosities ULIRGs: H II: 27+/-15% LINER: 31+/-15% Sey 2: 53+/-16% Sey 1: 73+/-14% PG QSOs FIR-bright (L 60um /L 15um >1): 83+/-6% FIR-faint (L 60um /L 15um <1): 90+/-6% FIR-undetected: 94+/-5%

Residual fractions HII and LINER ULIRGs – more disturbed Sey 2, Sey 1, PG QSOs – less disturbed

Fundamental-plane relation & blackhole mass ULIRGs and PG QSOs are indistinguishable. Blackhole mass (Marconi & Hunt 2003) log(M_BH/10 7 M ⊙ ): ULIRGs=42.9+/-96.8 PG QSOs=43.8+/-48.6

Summary 1. 6 independent MIR diagnostic methods give consistent results within +/-15%. 2. AGN contributions in ULIRGs: ~30% (HII, L), 55% (Sey2), 75% (Sey2). 3. AGN contributions in PG QSOs: ~85% (FIR-bright), 90% (FIR- faint), 95% (FIR-undetected). 4. Spectroscopic and morphological studies of the ULIRGs and PG QSOs suggest evolutionary connection (ULIRGs to QSOs).