measuring parameters of supermassive black holes Измерения параметров...
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Measuring parameters of Supermassive Black Holes Измерения параметров черных дыр. А.Ф.Захаров (Alexander F. Zakharov) Institute of Theoretical and Experimental Physics , Moscow ASC FI RAS E-mail: [email protected] - PowerPoint PPT PresentationTRANSCRIPT
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Measuring parameters of Supermassive Black HolesИзмерения параметров черных дыр
• А.Ф.Захаров (Alexander F. Zakharov)
• Institute of Theoretical and Experimental Physics, Moscow• ASC FI RAS• E-mail: [email protected]
•
• XXXXth Rencontres de Moriond• “Very High Energy Rhenomena in the Universe” • March 15, 2005
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Outline of my talk
• History
• Black holes in astrophysics
• The iron K -line as a tool for BH characteristics
• Mirages around BHs and retro-lensing
• Black Hole Images
• Conclusions
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Black hole history (I)• 1783 : The Reverend John Michell (invisible sphere)• 1798,1799 : P.S. Laplace (Exposition du Systeme du Monde Part II, p.
305, Allgemeine Geographifche Ephemeriden, 4, S.1, 1799)• 1915 : K. Schwarzschild • 1928 : Ya.I Frenkel (EOS for degenerate electron Fermi-gas with
arbitrary relativistic degree and typical WD masses)• 1930 : E. Stoner (the upper limit for masses of white dwarfs for uniform
mass distribution)• 1931 : S. Chandrasekhar (the upper limit for masses of white dwarfs for
polytrope mass distribution)• 1932 : E. Stoner (EOS for degenerate electron Fermi-gas with arbitrary
relativistic degree)• 1934, 1935 : S. Chandrasekhar (the upper limit for masses of white
dwarfs for arbitrary relativistic degree)• 1935 : A.Eddington (rejections of the upper limit for WDs)• 1939 : R.Oppenheimer & G.Volkoff (the upper limit for NSs and the GR
approach)• 1939 : R.Oppenheimer & R.Snyder (the collapse of pressureless stars
and the GR approach) “Every statement of this paper is in accordance with ideas that remain valid today”(Novikov & Frolov, 2001)
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Black hole history (II)• 1939: Einstein considered a possibility “to create a field having • Schwarzschild singularity by gravitating masses”;• Einstein (1939): “The main result of this investigation is a clear
understanding that Schwarzschild singularities do not exits in real conditions”;
• 1942: Bergmann:” In reality, mass has no possibility to concentrate• by the following way that the Schwarzschild singular surface would
be in vacuum”• 1958 : D. Finkelstein & 1960 M.Kruskal (causal structure of
Schwarzschild metric) • 1962 : R. Feynman “Lectures on gravitation” (“it would be interesting
to investigate dust collapse” (23 years later OS paper!)
• 1967 : J.A. Wheeler: black holes predicted to result from “continued gravitational collapse of over-compact masses” (the birth of the BH concept)
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Black holes in centers of galaxies
(L.Ho,ApJ 564,120 (2002))
•H
o1
•H
o2
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• Macho_96_5_light _curve
• Macho_96_6_light _curve
• Likelihood functions for BH microlenses
• Probable masses and distances for BH microlenses
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Black holes in galaxy centers
Many galaxies are assumed to have the black holes in their centers.
The black hole masses vary from million to dozens of billion Solar mass.
Because of the small size we cannot observe the black hole itself, but can register the emission of the accretion disk, rotating around the black hole.
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Seyfert galaxies and K line
Seyfert galaxies give us a wonderful possibility of direct observations of black holes in their centers.
They often have a wide iron K line in their spectra, which seems to arise in the innermost part of the accretion disk close to the event horizon.
Hubble image of Seyfert galaxy NGC 4151 shown at the left.
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Fe K line origin
K (6.4 keV) analogous to L in hydrogen, electron transition to the lowest level excitation by electronic shock
h > 7.1 keV neutral iron photoionization and recombination Fe XXV, XXVI – 6.9 keV hydrogen-like Fe
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Emission lines in Seyfert galaxies
O VIII 0.653 keV Fe L 0.7– 0.8 keV
Ne IX 0.915 keV Ne X 1.02 keV
Fe L 1.03 – 1.25 keV Mg XI 1.34 keV
Mg XII 1.47 keV Si XIII 1.85 keV
Si XIV 2.0 keV S XIV 2.35 keV
S XV 2.45 keV S XVI 2.62 keV
Ar XVII 3.10 keV Ar XVIII 3.30 keV
Fe I – Fe XVI 6.4 keV
Fe XVII – Fe XXIII 6.5 keV
Fe XXV 6.68 keV
Fe XXVI 6.96 keV
K
Turner, George, Nandra, Mushotzky
ApJSS, 113, 23, 1997, November
We find a 6.4 keV emission line in 72% of the sample (18 of 25 sources) at the 99% confidence level.
The 5 – 7 keV regime is dominated by emission from neutral iron (< Fe XVI).
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Observations
Tanaka, Nandra, Fabian. Nature, 1995, 375, 659.Galaxy MCG-6-30-15, ASCA satellite, SIS detectors
Sy 1 type
The line profile of iron K line in
X-ray emission from MCG-6-30-15.
Width corresponds to 80000 – 100000 km/s.
• Variability
Sulentic, Marziani, Calvani. ApJL, 1998, 497, L65.
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Observations
Weaver, Krolik, Pier. ApJ, 1998, 498, 213. (astro-ph / 9712035).
MCG-5-23-16 K FWHM = 48000 km/s RXTE observations (launched Dec.95)
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ASCA observations. Seyfert 2 galaxies.
Turner, George, Nandra, Mushotzky, ApJSS, 113, 23, 1997.
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Properties of wide lines at 6.4 keV
Line width corresponds to velocity o v 80000 – 100000 km/s MCG-6-30-15 o v 48000 km/s MCG-5-23-16 o v 20000 – 30000 km/s many other galaxies
Asymmetric structure (profile) o two-peak shape o narrow bright blue wing o wide faint red wing Variability of both o line shape o intensity
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Possible interpretation
iron K emission line
o 6.4 – 6.9 – 7.1 keV
radiation of inner part of accretion disk around a supermassive
black hole in the center of the galaxy
r emission 1 – 4 rg 2
2
c
kmrg
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Interpretation
1. Jets
? Blue shift has never been seen
? Broad red wing
2. Multiple Compton scattering
? Line profile
? High frequency variability
3. Accretion disk
!!! Line profile !!!
Variability !
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Equations of motion
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Equations of motion
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Equations of motion
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Simulation result
Spectrum of a hot spot for
a=0.9, deg. and
different values of radial
coordinate.
Marginally stable orbit lays
at r = 1.16 rg.
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Simulation result
Spectrum of a hot spot for
a=0.99, deg. and
different values of radial
coordinate.
Marginally stable orbit lays
at r = 0.727 rg.
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Simulation result
Spectrum of a hot spot for
a=0.99, r = 1.5 rg and
different values of angle.
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Gallery of profiles
with S.V. Repin (in preparation)
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Rings summation
Classical expression for the ring area
should be replaced in General Relativity with
where
is the additional relativistic factor, appearing due to the frame dragging.
drrdS 2
dr
arrr
ardS
g22
222
22
22
arrrr
arf
g
GR
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Simulation result
Spectrum of Fe K line in
isothermal disk with a = 0.9
and emission region between
10 rg and marginally stable
orbit at 1.16 rg.
The figure presents the
dependence on angle.
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Simulation result
Spectrum of Fe K line in
isothermal disk with a = 0.9
and emission region between
10 rg and marginally stable
orbit at 1.16 rg.
The figure presents the
dependence on angle
(large values).
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Simulation result
Spectrum of Fe K line in
isothermal disk with a = 0.99
and emission region between
10 rg and marginally stable
orbit at 0.727 rg.
At large one can see the
lensing effect.
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Simulation result
Overview of possible line profiles
of a hot spot for different values of
radial coordinate and inclination
angle.
The radial coordinate decreases
from 10 rg on the top to 0.8 rg on the
bottom. The inclination angle
increases from 85 degrees in the left
column to 89 degrees in the right.
Zakharov A.F, Repin S.V. A&A, 2003,
406, 7.
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Simulation result
Spectrum of a hot spot rotating at the distance 10 rg and observed at large inclination angles. Left panel includes all the quanta with degrees. The right one includes the quanta with degrees.
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Simulation result
Spectrum of an entire -disk observed at large inclination angles. Emitting region lies between 3 rg and 10 rg. Left panel includes all the quanta with degrees. The right one includes the quanta with degrees.
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Magnetic field estimations near BH horizon in AGNs and GBHCs
(Zakharov, Kardashev, Lukash, Repin, MNRAS, 342,1325, (2003))
• Zeeman splitting E1=E0-μBH, E2=E0+ μBH, μB=eћ/(2mec), μB=9.3*10-21 erg/G
• Figure1• Figure2• Figure3• Figure4• Figure5• Figure6• ASCAdata
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Magnetic field estimations near BH horizon in AGNs and GBHCs for non-flat accretion flows
(Zakharov, Ma, Bao, New Astronomy, 9, 663 (2004))
• Figure1
• Figure2
• Figure3
• Figure4
• Figure5
• Figure6
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Mirages around Kerr black holes and retro-gravitational lenses
• Let us consider an illumination of black holes. Then retro-photons form caustics around black holes or mirages around black holes or boundaries around shadows.
• (Zakharov, Nucita, DePaolis, Ingrosso,
• New Astronomy (accepted); astro-ph/0411511)
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Schwarzschild black hole images(with P. Jovanovic, L. Popovic in
preparation) deg
• Redshift map Intensity map
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Schwarzschild black hole images
deg
• Redshift map Intensity map
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Schwarzschild black hole images: deg
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• Redshift map• Intensity map
Schwarzschild black hole images: deg
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• Redshift map• Intensity map
Schwarzschild black hole images: deg
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• Redshift map• Intensity map
Schwarzschild black hole images: deg
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• Redshift map
• Intensity map
Schwarzschild black hole images: deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.5): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): 45 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): 60 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): 75 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): 85 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.75): 89 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 15 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 30 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 45 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 60 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 75 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 85 deg
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• Redshift map• Intensity map
Kerr black hole images (a=0.99): 89 deg
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Conclusions
• Now the detailed structure of accretion disks is still unknown (in particular we do not know a thickness of accretion disks).
• Therefore, there is a possibility to observe highly inclinated accretion disks (about 1% of all AGNs snould have such high inclination. The situation is much better for microquasars; because of possible presession of accretion disks (for example, SS433).
In this case this analysis could give us a useful tool for a determination
of such high inclination angles, however another factors (which are behind of this simple model) could cause such line profiles.
• Distortion of iron line profiles could give essential information about magnetic fields near BH horizons in AGNs and GBHCs.
Searches for such features of spectral lines could useful to realize using present and future spacecrafts
such as
Chandra, XMM, Integral, Constellation.
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• Radioastron could detect mirages (“faces”) around black holes.
• Shapes of images give an important information about BH parameters