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Jets from stellar tidal disruptions by supermassive black holes Dimitrios Giannios Princeton University HEPRO3, Barcelona, June 30.

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Presentation on theme: "Jets from stellar tidal disruptions by supermassive black holes Dimitrios Giannios Princeton University HEPRO3, Barcelona, June 30."— Presentation transcript:

1 Jets from stellar tidal disruptions by supermassive black holes Dimitrios Giannios Princeton University HEPRO3, Barcelona, June 30

2 Galactic centers: some are active, most are dormant starburst galaxies Baldwin, Phillips & Terlevich 1981 Kormendy & Richstone 1995; Kauffmann et al. 2003 AGN M87; NASA/Hubble Ghez et al. 2005 Sgr A* NGC 3115 Canada-France-Hawaii Telescope

3 Rare glimpses to quiescent SMBHs from tidal disruption of a star RtRt When a wandering star finds itself within it is tidally disrupted For solar type star  Rate of TDEs~10 -4 -10 -5 yr -1 gal -1 Rate of TDEs~10 -4 -10 -5 yr -1 gal -1 (e.g. Magorrian & Tremaine 1999)

4 Tidal Disruption of a Star by a Supermassive Black Hole (Rees 1988; Phinney 1989; Evans & Kochanek 1989) 1. Disruption Figures Courtesy of Linda Strubbe 2. Fall-Back 3. Circularization and Accretion

5 Thermal “Flares” from Accretion Disk (Optical, UV, X-ray) (e.g. Rees 1988; Ulmer 1997; Ayal et al. 2000; Strubbe & Quataert 2009, 2010) ~10 Candidate Detections So Far by - ROSAT All-Sky Survey (Komossa 2002) - XMM Slew Survey (Esquej et al. 2007) - Galex Deep Imaging (Gezari et al. 2009) - SDSS Stripe 82 (van Velzen et al. 2010) - PTF (Cenko et al. 2010) Galex D1-9 Gezari et al. 2008

6 Where there is accretion to BH, there are jets! A substantial fraction of gravitational energy may be channeled into relativistic jets  Non-thermal signatures from TDEs gamma-ray bursts jets in galactic centersstellar binaries M87; NASA/Hubble

7 “Radio transients from Stellar Tidal Disruptions by Massive Black Holes” Giannios & Metzger 2011 t jets? energy released energy in jets Supernova or GRB!

8 Radio Transients by Stellar Tidal Disruptions by Massive Black Holes Prediction: radio synchrotron emission peaking at t peak ~ 1 – a few years: Jet Interaction with ISM Giannios & Metzger 2011 Blind radio surveys may detect tens of TDEs per year Giannios & Metzger 2011

9 And then came the … Event

10 GRB 110328A/Swift 1644+57  /X-ray IR-Optical Radio Triggered Swift BAT on March 28, 2011 Triggered BAT 3 more times over next few days Remains bright in X-rays IR and Radio Brightening Host galaxy at z = 0.35 (Levan et al. 2011; Bloom, Giannios et al. 2011; Burrows et al. 2011) Levan et al. 2011 NOT a (normal) GRB - low luminosity - duration ~ months NOT a normal AGN - no evidence for AGN or past activity

11 Compact Host Galaxy at z = 0.35 Not an AGN Within < 150 pc of galactic center  SMBH origin ~100 s variability and bulge mass M b < 10 10 M  L X > 10 47 erg s -1 > 100 L Edd  super-Edd accretion and/or beaming Levan et al. 2011  M BH < 10 7 M 

12 “Mini Blazar” Hypothesis synchrotron self-absorption  R radio > 10 16 cm  v ej ~ c  external shock from ISM interaction (Giannios & Metzger 2011) X-ray variability  R X ~ c  t X  2 ~ 3 x 10 14 (  /10) 2 cm  “internal” process (e.g. shocks, reconnection) t ~ 3 days X-rays radio Bloom, Giannios et al. 2011; see also Burrows et al. 2011, …

13 jets from TDEs: (Rough) energetics and rates observed (0.3-10) keV fluence E x,iso ~2 x 10 53 erg ▫~ x 3 for likely bolometric corrections ▫~ x 2 for radiative efficiency of flow  E k,iso ~ 10 54 erg or E k,true ~ 10 51 erg depending on beaming Rates very uncertain: 1 event in 7 years of Swift operation (Ω fov =4π/7 sr); observable out to z~0.4-0.8  R obs ~ 10 -9 - 10 -8 gal -1 yr -1 or R true ~ 10 -6 – 10 -5 gal -1 yr -1  ~3-30% of ALL TDEs accompanied by powerful jets?

14 Predictions X-ray emission will continue to fade over the next few months (no later re-brightening/repetition) If jet turns off, thermal disk emission may become visible (?) GHz Radio emission will remain bright for ~ years relativistic motion observable with VLBI (?) Updated X-ray light curve

15 Implications Detections: Future TDE detections with blind radio surveys Giannios & Metzger 2011 Jet physics: B fields responsible for accelerating AGN jets can be generated in situ (e.g. via disk dynamo) TDE jets may accelerate UHECRs (Farrar & Gruzinov 2009), but production rate may be insufficient Sw 1644+57 blazar optical/UV/ X-ray IR/radio

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