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Extended X-ray Emissions from the Radio Galaxies Centaurus B and Fornax A Makoto Tashiro 1, Naoki Isobe 2, Masaya Suzuki 1 Kouichi Ito 1, Keiichi Abe 1,

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Presentation on theme: "Extended X-ray Emissions from the Radio Galaxies Centaurus B and Fornax A Makoto Tashiro 1, Naoki Isobe 2, Masaya Suzuki 1 Kouichi Ito 1, Keiichi Abe 1,"— Presentation transcript:

1 Extended X-ray Emissions from the Radio Galaxies Centaurus B and Fornax A Makoto Tashiro 1, Naoki Isobe 2, Masaya Suzuki 1 Kouichi Ito 1, Keiichi Abe 1, and Kazuo Makishima 3 1:Saitama Univ., 2: ISAS/JAXA, 3:Univ. of Tokyo ASCA (ISAS) 1.XMM-Newton observation Centaurus B 2.Summary diagrams of IC-X-ray observation from radio lobes 3.ASCA and Chandra observations of Fornax A

2 1. XMM-Newton observation Centaurus B ( radio: Jones, Lloyd, McAdam, 2001, MNRAS, 325, 817) Un-identified Point Source nucleus “Jet” “Arrow” un-ID source ((pow + ray) x Gal. Abs.) Photon index: 2.65±0.31 Temperature: kT = 0.14 keV F (2-10keV) : 0.3×10 -13 erg cm -2 s -1 un-ID source ((pow + ray) x Gal. Abs.) Photon index: 2.65±0.31 Temperature: kT = 0.14 keV F (2-10keV) : 0.3×10 -13 erg cm -2 s -1 “jet” (power-law x Galactic Abs.) –Photon index: 1.43±0.18 –F (2-10keV) : 2.0E-13 erg cm -2 s -1 –L (2-10keV) :5.6E40 erg s -1 “jet” (power-law x Galactic Abs.) –Photon index: 1.43±0.18 –F (2-10keV) : 2.0E-13 erg cm -2 s -1 –L (2-10keV) :5.6E40 erg s -1 “arrowhead” (power-law x Galactic Abs.) - Photon index: 1.66±0.43 - F (2-10keV) : 0.5E-13 ergcm -2 s -1 - L (2-10keV) :1.2E40 erg s -1 “arrowhead” (power-law x Galactic Abs.) - Photon index: 1.66±0.43 - F (2-10keV) : 0.5E-13 ergcm -2 s -1 - L (2-10keV) :1.2E40 erg s -1 Whole & “diffuse” (Diffuse = power-law x Galactic Abs.) Photon index: 1.4±0.3 F (2-10keV) :6.7E-13erg cm -2 s -1 L (2-10keV) :1.9E41 erg s -1 Whole & “diffuse” (Diffuse = power-law x Galactic Abs.) Photon index: 1.4±0.3 F (2-10keV) :6.7E-13erg cm -2 s -1 L (2-10keV) :1.9E41 erg s -1 “diffuse” AGN (power-law x Abs.) - Photon index: 1.56±0.02 - F (2-10keV) : 5.4E-12 ergcm -2 s -1 - L (2-10keV) :1.5E42 erg s -1 AGN (power-law x Abs.) - Photon index: 1.56±0.02 - F (2-10keV) : 5.4E-12 ergcm -2 s -1 - L (2-10keV) :1.5E42 erg s -1 Centaurus B with MOST (McAdam, 1991, Proc. Astron. Soc. Australia, 9 (2), 255) & ASCA (Tashiro et al. 1998, ApJ 499, 713) ASCA (ISAS)

3 un-ID source “diffuse” “jet” “arrow ” nucleus X-ray flux ASCAXMM Photon Indices  r = 1.73  diffuse = 1.4±0.3  arrow = 1.66±0.43  jet = 1.43±0.18  r ~  X IC-X-ray XMM results in comparison with ASCA results (Tashiro et al. 1998, ApJ 499, 713) L x nuc = 1.5×10 42 erg/s L x jet = 5.4 × 10 40 erg/s L x arrow =1.2 ×10 40 erg/s L x diff =1.9 ×10 41 erg/s u CMB > u nucleus (d > 3 kpc (0.2’)) →CMB dominates both in the region “jet” (d~ 7.5 kpc) and “arrow” (d~45 kpc)

4 Non-thermal radio and X-ray emissions in jets and lobes (e.g. Harris & Grindlay 1979, MNRAS 188, 25) Synchrotron Radio Emission flux: F SR ∝ u e u m V energy index :  SR u e : energy density of electrons u m : energy density of magnetic fields V : Volume of the Lobe by comparing F SR and F IC u e and u m Inverse Compton (X-ray) Emission flux : F IC ∝ u e u seed V energy index :  IC =  SR u eed =u CMB +u sync +u gal +… u CMB : energy density of CMB 4.1 x 10 –13 (1 + z) 4 erg cm -3 in many cases….. u seed ~u CMB

5 Centarusu B: structures and energy densities “Jet” –u m ~ (3.6 × 10 -15 )(  ) 2 –u e ~ (2.2 × 10 -7 ) (10/  ) 2 –  u e  u m )~ 10 8 (10/  ) 4 (B ~0.3  G) “arrowhead” –u m ~ (4.2× 10 -15 )(  ) 2 –u e ~ (1.0 × 10 -10 ) (10/  ) 2 –  u e  u m )~ 10 5 (10/  ) 4 (B ~ 0.3  G) “Jet” –u m ~ (3.6 × 10 -15 )(  ) 2 –u e ~ (2.2 × 10 -7 ) (10/  ) 2 –  u e  u m )~ 10 8 (10/  ) 4 (B ~0.3  G) “arrowhead” –u m ~ (4.2× 10 -15 )(  ) 2 –u e ~ (1.0 × 10 -10 ) (10/  ) 2 –  u e  u m )~ 10 5 (10/  ) 4 (B ~ 0.3  G) “diffuse” –u m ~ (7.3 × 10 -14 ) (B ~ 1.4  G) –u e ~ (6.2 × 10 -12 )  u e  u m )~ 100  (in average of the lobe) “diffuse” –u m ~ (7.3 × 10 -14 ) (B ~ 1.4  G) –u e ~ (6.2 × 10 -12 )  u e  u m )~ 100  (in average of the lobe)  Detected the diffuse X-ray emission and X-ray bright structures (“jet”, “arrowhead”)  Derived energy distributions in the “jet” & “arrowhead”, considering their expected bulk motions (  ~0.94 (from radio luminosity ratio)), are…. The unit of energy densities are [ erg cm -3 ]

6 Magnetic Field Energy u m V [10 58 erg] Electron Energy u e V [10 58 erg] 2. Summary diagrams of IC-X-ray observation from radio lobes ueV=umVueV=umV u e V=10u m V Isobe 2002 & his poster L kin  AGE ~ u e V +u m V L kin /(1+  ) > L X(2-10keV) u e V > 10 u m V L X(2-10keV) [10 40 erg s -1 ] L kin [(1+  ) 10 40 erg s -1 ]  : for positive particle

7 3. ASCA and Chandra observations of Fornax A A possible story of AGN ASCA image with overlaid VLA image (Kaneda et al. 1995, ApJ 543, L13; Ekers et al. 1983, A&A 127, 361 See also Feigelson et al. 1995, ApJ 448, L149) Brightness profile of radio (u e u m ) and X-rays (u e ) Fornax A : ASCA (Tashiro et al. 2001, ApJ 546, L19)

8 X-ray “blob” (Kim & Fabbiano 2003, ApJ 586, 826) An X-ray “blob” –2 kpc from the galaxy radiates thermal X-rays Independent from jets or lobes “merging” is suggested (~ Gyrs. ago?) HST: Grillmair et al., 1999, AJ 117, 167 2kpc 0.3-1.5keV (Chandra)1.5-10keV (Chandra) VLA Fomalont et al.ApJ 346, L17 1989)

9 X-ray spectrum from the “blob” Two-temperature plasma emission –kT = 0.45/ 0.37 keV Cooling Flow model –kT= 0.19- 0.71 keV –z = 0.07 X-ray 1.5-10keV  cool = 1-7x10 7 year

10 speculation: Possible History of the nucleus activity Activity starts –lobe size  before (t-10 6 )yr –“blob”  cool  after (t-10 7-8 )yr Activity stops –“lobe”  cool  after (t-10 9 )yr –No jet  before (t-10 5 )yr (t-10 8 )yr < AGN activity < (t-10 5 ) yr ? Since the total energy in the lobe ~ 10 58 erg…., 10 43 erg/s < L kin < 10 46 erg/s again, comparable with the AGN radiation ?

11 Conclusions  With ASCA, Chandra and Newton, CMB boosted IC X-rays are observed from a number of radio lobes.  The derived u e tends to dominate u m -- by an order of magnitude.  The electron energy, u e V, seems to be proportional to the nuclear luminosity, although the magnetic energy, u m V does not dependent on it.  Centaurus B: particle energy u e dominates the magnetic field u m, but it dissipates along the “jet”.  Fornax A: A possible AGN history is presented.  With ASCA, Chandra and Newton, CMB boosted IC X-rays are observed from a number of radio lobes.  The derived u e tends to dominate u m -- by an order of magnitude.  The electron energy, u e V, seems to be proportional to the nuclear luminosity, although the magnetic energy, u m V does not dependent on it.  Centaurus B: particle energy u e dominates the magnetic field u m, but it dissipates along the “jet”.  Fornax A: A possible AGN history is presented.

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