QUASAR-MICROQUASAR ANALOGY The scales of length and time are proportional to M BH R sh = 2GM BH /c 2 ;  T  M BH Unique system of equations: The maximum.

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Presentation transcript:

QUASAR-MICROQUASAR ANALOGY The scales of length and time are proportional to M BH R sh = 2GM BH /c 2 ;  T  M BH Unique system of equations: The maximum color temperature of the accretion disk is: T col  M/ 10M  ) -1/4 (Shakura & Sunyaev, 1976) For a given accretion rate: L Bol  M BH ; l jet  M BH ;  M BH -1 ; B  M BH -1/2 (Sams, Eckart, Sunyaev, 96; Rees 04) QUASAR MICROQUASAR M. & Rodriguez; Nature 1998 APPARENT SUPERLUMINAL MOTIONS IN  QSOs AS IN QSOs ?

SUPERLUMINAL MOTIONS IN QSOs & AGN OBSERVED IN > 30 QSOs & AGN IN RADIO & OPTICAL WAVES PROPER MOTION SEEN IN YEARS V app UP TO 30c in blazars One sided because of Doppler boosting WHAT IS THE NATURE ? “PLASMONS” OR SHOCKS ?

SUPERLUMINAL EJECTION IN A  QSO 1 arcsec M. & Luis Rodriguez, 1994 V app > C for a DISTANCE > 8 Kpc  cm THE PLASMA THAT RADIATES IN THE HARD X-RAYS IS BLOWN IN SUPERLUMINAL JETS VLA GRS

SUPERLUMINAL MOTIONS IN THE GALAXY 1)MOVE ON THE PLANE OF THE SKY ~10 3 TIMES FASTER 2)JETS ARE TWO-SIDED WHICH ALLOWS TO SOLVE EQUATIONS 3)BETTER AGN AT <100 Mpc. e.g R sh in M87 (Biretta) WITH SAME BULK LORENTZ FACTORS AS IN QSOs M. & Rodriguez, 1994

GRS : SEVERAL EJECTION EVENTS VLA (Rodriguez & Mirabel, 1999) Are these jets Fireballs (Mezaros & Rees) or Cannonballs ? (Daar & De Rujula) Also with MERLIN (Fender et al. 01) Bulk  = (1 –      for  = v/c

RELATIVISTIC ABERRATION IN ANTISYMMETRIC TWIN JETS Relativistic upper limit: D < 14 kpc Same bulk Lorentz factors as in QSOs: 2-10

RELATIVISTIC METHOD FOR DISTANCES IN ASTRONOMY IF ANTISYMMETRIC, THE VELOCITY, DIRECTION OF THE JETS, & DISTANCE CAN BE FOUND (M. & Rodriguez, 1994) BUT SPECTRAL LINES (H, He, Fe) HAVE BEEN SO FAR DETECTED ONLY IN SS 433. WHY ? IF THE JETS ARE DOMINATED BY ELECTRON-PROTON PLASMA: FROM PROPER MOTIONS FROM DOPPLER FACTOR OF ION LINES

DARK JETS FROM BLACK HOLES Radio (Dubner et al); X-rays: (Brinkmann et al) SS433/W50 ATOMIC NUCLEI MOVING AT 0.26c  MECHANICAL LUMINOSITY > erg/sec NON RADIATIVE JETS = “DARK” JETS >50% OF THE ENERGY IS NOT RADIATED 1 o = 60 pc  arcsec VLA 20cm

LARGE-SCALE JETS BECOMING COMMON Cyg X-1 ( Gallo,Fender et al. Nature 05) >50% OF THE RELEASED ENERGY IS NOT RADIATED Cyg X-3 (Marti et al.2005) ALSO IN GRS (Luis Rodriguez & M. 2006)

MOVING X-RAY JETS IN A  QSO  QSOs XTE J &  Corbel et al. (2002, 05) X-rays are produced by synchrotron  electrons accelerated to TeV energies

à neutrons HORIZON IS THE BASIC CONCEPT THAT DEFINES BLACK HOLES AND IT IS DIFFICULT TO OBTAIN DIRECT EVIDENCE OF THEIR EXISTENCE

ACCRETION–JET CONNECTION ABSCENCE OF EVIDENCE FOR A MATERIAL SURFACE AROUND 14 M sun THE ONSET OF THE JET IS AT THE TIME OF A X-RAY “SPIKE”:  SUDDEN REFILL OF THE DISK & SHOCK THROUGH COMPACT JET  T  M BH Multiwavelength approach (M. et al.1998 )1 hr = 30 yr in SgrA*

COMPACT STEADY JETS ~100 AU IN LENGTH PRESENT DURING PLATEAU STATE SPEED OF THE FLOW < 0.4c (Ribo, M. & Dhawan 2005) LARGE SCALE JETS ARE SHOCKS PROPAGATING  c THROUGH THE SLOWER MOVING COMPACT JET THE COMPACT JET REAPPEARS HOURS AFTER FLARES Ribo, M. & Dhawan 2005M. et. al, cm 3.6 cm

ANALOGOUS ACCRETION-EJECTION IN 3C 120 Marscher et al. Nature 2002

 QSOs & ULTRALUMINOUS X-RAY SOURCES Microquasars in external galaxies X-ray (Chandra) Antennae Fabbiano et al. ISOTROPIC BUT M BH > 30 M  (Pakull et al. 2002) ANISOTROPIC BUT NOT BEAMED ( King et al 2001) ANISOTROPIC AND BEAMED (Mirabel & Rodriguez, 1999)

MICROBLAZARS (M. & L.F. Rodriguez, ARAA 1999) Due to relativistic beaming:  t     e.g. If  = 5,       t 10 3  -Should appear as variable and luminous gamma  ray sources  -By inverse Compton of jet particles on UV photons some HMXBs may be gamma  ray sources (Romero et al.; Paredes et al. 2002) TWO HMXBs detected at > 100 Gev LS 5039 by HESS (Aharonian et al 2005) LSI by EGRET (Paredes et al. 04)