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Refining the Radius–Luminosity Relationship for Active Galactic Nuclei

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Presentation on theme: "Refining the Radius–Luminosity Relationship for Active Galactic Nuclei"— Presentation transcript:

1 Refining the Radius–Luminosity Relationship for Active Galactic Nuclei
Misty Bentz The Ohio State University October 19, 2006 Collaborators: Brad Peterson, Kelly Denney, Rick Pogge, Marianne Vestergaard

2 Talk Outline • Review of Radius—Luminosity Relationship
• Host-galaxy starlight images • New BLR radii from reverberation-mapping • Summary and future plans

3 Radius—Luminosity Relationship
Bright, nearby galaxies with faint AGNs and substantial starlight Long lags, some not well constrained - Addition of 17 PG objects allowed real study of relationship by extending L range - Peterson 2004: self-consistent analysis of all monitoring data, cleaned up plot, but still issues Kaspi, S. et al ApJ, 533, 631

4 HST Imaging Program Cycle 12 SNAP Program • 14 objects (12 Seyferts,
2 PG quasars) • ACS HRC camera, F550M filter • set of 3 exposures (120s, 300s, 600s) for each object - F550M – narrow band filter that doesn’t allow emission lines from broad or narrow line region, just continuum flux - Graduated exposures allow correction of saturated nuclear pixels as well as good S/N in outlying galaxy Goal – Measure host galaxy contribution to luminosity

5 Examples: Aperture Geometry

6 Examples: Galfit 2-D Image Decompositions
fits residuals

7 Image Decompositions, cont…
fits residuals

8 PSF Subtractions

9 Revised Radius—Luminosity Relationship
Excluded Points: NGC 3516, NGC 7469, IC 4329A: awaiting HST imaging NGC 4051, NGC 3227: significant nuclear structure & reddening PG : suspicious lag - PG2130 lag suspicious because it’s an outlier in everything and from unpublished collaborator’s proprietary data - slope of 0.5 consistent with simple photoionization arguments NGC 4151 Bentz, M. C., et al , ApJ, 644, 133

10 New Reverberation Mapping Program
Spring ’05 Program – Remeasure Hβ Lag Time 6 targets: 2 varied substantially, 1 marginally NGC 4151 τcent = 6.6 +/- 0.9 d σline = /- 64 km s-1 MBH = / x 107 M☼ (Bentz, M. C., et al , ApJ, in press) NGC 4593 τcent = / days σline = /- 53 km s-1 MBH = 9.6 +/- 2.0 x 106 M☼ (Denney, K. D., et al , ApJ, in press) See poster by Kelly Denney

11 HST Imaging Program #2 Cycle 14 GO Program • 4 Seyferts:
NGC3516, NGC4593, NGC7469, and IC4329A • Same observational setup as before • Same techniques employed

12 New monitoring program Fall ‘06
HST imaging July ‘06 New monitoring program Spring ‘07 HST Cycle 15 Program: ACS HRC imaging of last 17 objects

13 Implications • R-L relationship holds for 5 orders of magnitude
• low luminosity objects have masses ~3x previous estimates • significant outliers can be expected to have physical differences that separate them from the typical population R-L relationship now diagnostic tool

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