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Probing the TeV Emission and Jet Collimation Regions in M87
R. C. Walker M. Beilicke, F. Davies, P.E. Hardee, H. Krawczynski, D. Mazin, R. Wagner, M. Raue, S. Wagner, C. Ly, W. Junor, and the VERITAS, MAGIC, and H.E.S.S. Collaborations
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CONTEXT: M87 LARGE SCALE STRUCTURE
X-Ray Optical Radio 1 kpc scale A dominant elliptical in the Virgo Cluster Radio images 25 kpc = 5' 800 pc 0.8 pc 300 pc 400 pc NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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M87 - THE BEST SOURCE FOR IMAGING A JET BASE
Large angular size black hole Large black hole mass: ~6 X 109 Msun (Gebhardt and Thomas 2009) Nearby: 16.7 Mpc (A central galaxy of the Virgo Cluster) Scale: Rs = 120 au = 7.1 as; 1 c = 3.8 mas/yr VLBA 43 GHz resolution; 210 X 430 as (~30 X 60 Rs) Innermost stable orbit (spin dependent): 4 days to 1 month Jet is bright enough to see significant structure Core has about 0.7 Jy at 43 GHz - can self-calibrate VLBI data Jet well resolved transversely very near core Can be seen by northern hemisphere instruments Sgr A* black hole 40% higher angular size but has no jet Well studied at all wavelengths from radio to TeV FERMI detection reported Monday (McConville ) 1.3mm VLBI observations reported Monday, 4.3Rs beam (Schenck ) NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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PROSPECTS FOR COMPARISON OF THEORY AND OBSERVATION
Simulations of disk/jet systems are reaching observable scales Models indicate the launch and collimation region extends over Rs The observational goal of our VLBA project is to provide a data set that constrains the theory Need the best possible resolution in gravitational units VLBI just able to reach into that regime in M87 Max scale 40 c2/(GM) 1000 McKinney & Narayan 2007
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Walker: TeV and VLBA Results from M87
M87 VLBI IMAGES 20 mas 15 GHz VLBA Double sided, edge brightened jet Wide opening angle base “Counterjet” > 3mas long (420 Rs) Super- and sub-luminal speeds seen 1 mas = arcsec = 0.081pc = 141Rs mas/yr = 0.26c 1 mas Krichbaum global array 86 GHz 5 mas VLBA 43 GHz 23 image average NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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THE VLBA AND TEV PROJECTS
VLBA at 43 GHz: Every 3 weeks for 1 year in 2007 followed by Every 5 days for 70 days in 2008 Each epoch included 20 phase referencing scans between M87 and M84 (1.5º separation) Resolution 30 X 60 Rs (0.21 X 0.43 mas) TeV joint campaign Imaging atmospheric Cerenkov telescopes VERITAS, MAGIC, and H.E.S.S. (E > 100 GeV) >120 hours in early 2008 Resolution ~5X107 Rs (~0.1 degree) Chandra 4 observations during the TeV campaign + others earlier Resolution ~1.1X105 Rs (~0.8 arcsecond) NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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THE VLBA MOVIE PROJECT: DYNAMICS OF THE INNER M87 JET
Preliminary movie is from the first 11 images Jan-Aug 2007 Apparent motions ~2 c Analysis not finished - especially polarization processing NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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Walker: TeV and VLBA Results from M87
TeV/RADIO FLARE TeV A series of large TeV flares seen during the late January to early February observing window Windows set by Moon Extra observations made after trigger X-rays from core high in mid February HST1 X-ray flux steady Radio flare Began at time of the TeV flares Peaked near scheduled end of observations in early April Larger flare than any seen before in M87 by the VLBA Flux density increase mostly on the radio core X-ray HST-1 Nucleus <1.2 mas Radio Peak Jet >1.2 mas 2Apr2007 1Apr2008 Acciari et al 2009 Science 325, 444 NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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Walker: TeV and VLBA Results from M87
THE RADIO FLARE A: Pre-flare average B: Last flare image C-F: Flare images with average subtracted Core already above average at start Inner jet was below average Most of new flux remains on the core New weak components moving at about ~1.1c Slower than movie saw farther out - accelerating? NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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Walker: TeV and VLBA Results from M87
SIMPLE BLAST MODEL Radio from self-absorbed synchrotron emission from electrons injected into a slower outer sheath Hollow cone geometry Ring of radio emitting plasma -ray flare at time of injection Injection function proportional to TeV emission can match data Modeled emission region remains unresolved to the VLBA The new fast, weak components would be something else Only a fraction of flare flux density Radio from 1 injection (plot 80 days full width) Injection based on TeV data NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
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Implications of the TeV/Radio Flare
Coincidence in time of TeV and radio flares indicates they are related Both events abnormally large for this source Implies the TeV Emission region is near the black hole Small size had been known because of rapid TeV variability Position of TeV emission was unknown previously Allowing for projection etc, TeV is within < 200 Rs of black hole Assumes the black hole is near the radio core HST1 is not the location of these TeV flares 2005 HST-1 X-ray flare had made it a candidate Emission mechanism must work near the black hole. Several candidates still viable Radio emitting material injected near time of TeV flare Optically thick NM Symposium Jan. 15, 2010 Walker: TeV and VLBA Results from M87
