Post on 14-Jan-2016
1
High Energy Radiation from Black Holes
Gamma Rays, Cosmic Rays, and Neutrinos
Chuck DermerNaval Research Laboratorycharles.dermer@nrl.navy.mil
Govind MenonTroy Universitygmenon@troy.edu
2
Scientific Hypothesis
1. Highest energy and most powerful radiations made from black-hole engines
Synchrotron/Compton theory, compactness arguments, theory of relativistic flows
2. Ultra-high energy cosmic rays made in radio and gamma-ray loud blazars and GRBs
Hadronic vs. leptonic -ray and neutrino emission signatures in these sources
3. Turbulence or shocks accelerate particles to high energies
First and second-order Fermi acceleration; binary collision processes; blast wave physics
4. Energy source is the black-hole rotation and accretion
Extraction of energy through the Blandford/Znajek process
3
Press Restatement
BLACK HOLES ARE RESPONSIBLE FOR THE MOST
ENERGETIC COSMIC PARTICLES AND RADIATION
Blasts of radiation brighter than a trillion suns. Charged particles with the energy of a well-thrown baseball. Jets of magnetized plasma streaming across intergalactic space. What do these have in common? Their energy is derived from black holes.
Dermer and Menon: 2009 Fermi Symposium11/04/2008 4
Gamma Ray Galaxies: Black-Hole Powered
Two classes: 1. Active galaxies: Nearly 700 GeV,1 30 TeV; including 10 GeV and
TeV radio galaxies/SSRS/RLNLS1s2. Star-forming galaxies: Milky Way, LMC, NGC 253, M82,…M31(?)
LAT 1 year sky image2
1talk, B. Lott2Fermi talks
Gamma-ray luminosity of blazars: > trillion Solar luminosities
Dermer and Menon: 2009 Fermi Symposium11/04/2008 5
Gamma Ray Galaxies: Cosmic-ray/supernova powered
Two classes: 1. Active galaxies: Nearly 700 GeV,1 30 TeV; including 10 GeV/TeV radio
galaxies2. Star-forming galaxies: Milky Way, LMC, NGC 253, M82,…M31(?)
LAT 1 year sky image2
1talk, B. Lott2Fermi talks
Gamma-ray luminosity of Milky Way: ~100,000 Solar luminosities
galactic cosmic-rayInduced rays
Dermer and Menon: 2009 Fermi Symposium11/04/2008 6
The -ray/cosmic-ray connection
Nearby, low luminosity star-forming gamma-ray galaxies (millions x Solar luminosity) :
powered by supernovae explosions and collapse to neutron stars?
Distant, highly luminous active gamma-ray galaxies (trillions x Solar luminosity) :
powered by black holes?
Why so many detected black-hole powered gamma-ray galaxies (distant and therefore very luminous), and so few detected star-forming gamma-ray galaxies (nearby and therefore weak)?
Fermi mechanism predicts that highest energy particles made by sources with largest compactness = luminosity/size
Large compactness found in stellar core collapse to a neutron star forming supernovae and supernova remnants
Fermi map of SNR RX J1713.7−3946
Dermer and Menon: 2009 Fermi Symposium11/04/2008 7
Sources of the highest energy radiations
Very highest energy radiations, including ultra-high energy cosmic rays, made by black holes1. stellar core collapse to a black hole (gamma ray burst)2. rotating supermassive black holes3. microquasars in galaxies
Huge compactness found near accreting black holes, especially if rotating
Ultra-high energy cosmic rays from Centaurus A?
Moskalenko, et al. 2008
Cen A power: Bolometric radio power: 4×1042 erg s-1
Gamma-ray power: 5×1041 erg s-1
Hard X-ray/soft -ray power: 5×1042 erg s-1
UHECR power: few ×1040 erg s-1
11/04/2008 8
Black Hole Electrodynamics and Energy Extraction
Govind MenonTroy University
&Charles Dermer
U.S. Naval Research Laboratory
11/04/2008 9
E&B fields in Flat Space-time
0
0
0
0
123
132
231
321
BBE
BBE
BBE
EEE
F
The Maxwell Tensor in Special Relativity
2222 dzdydxdtg
DE
HB
11/04/2008 10
How do we define E&B fields? The Maxwell Tensor in General Relativity
0
0
0
0
123
132
231
321
gH
gHD
gH
gHD
gH
gHD
DDD
F
jiij dxdxdtddt 2 222
ijijgg detdet
11/04/2008 11
BEHD
,,
BDE
DBH
,0,0
where
even in “vacuum”
11/04/2008 12
(E,B) & (D,H) then satisfy
0 B D
0 EBt
JHDt
11/04/2008 13
24sin
cos2
aB r
52 sin
cos2
aE
242 sin
cos2
aB
22 2 aMrr
2222 cosar
22222 sin aar
Lambda is any function of theta.
11/04/2008 14
Energy and Angular Momentum Extraction
09
22
40
8d
Sin
Cos
adABH
dt
drr
r
07
22
30
8d
Sin
Cos
adABH
dt
dlrr
r
11/04/2008 15
The current vector
n
aJ
sin
cos1242
aarn ,0 , ,1 22
Note: n is the inward pointing principal null vector field in the Kerr Geometry.
11/04/2008 16
Solution
22
Mr
a
Hr aQB
2
sin1 0
rBE sinrBH
11/04/2008 17
6
222 mCE H
Krasnopolsky
Electromagnetic extraction of energy from hole
]2
)[arctan(20
M
a
r
a
ar
B
dt
dE
(figure courtesy R. Blandford)
11/04/2008 18
Angular Dependence of Energy Extraction
Energy Flux
i.e., most of the energy extraction takes place along the equatorial plane
2
02
2
2
sin
B
r
a
dAdt
Ed H
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
a = 0.1 a = 0.5 a = 0.9 a = 0.99
Pole, 0o
Equator
90o
45o
11/04/2008 19
BZ extraction of Power
]2
[arctan 2
0
M
a
r
a
ar
QP
-19
47 s ergs 102 MlP EDD
ii MMM 10
11/04/2008 20
The results presented here are used to argue that rotating black holes are the sources of the highest energy radiations
For details, see
High Energy Radiation from Black Holes(Princeton Univ. Press 2009)
Charles Dermer and Govind Menonand our poster
11/04/2008 21
Resurrection of the solution
Thus far we only looked at energy extraction resulting from Electromagnetic Poynting Flux.
The particle jet vanishes along the equatorial plane. It may well peak close to the polar axis of the Kerr Geometry
11/04/2008 22
Resurrection of the solution It is possible construct an exact
solution where the current flows through the out flowing null geodesic of the Kerr geometry.
The out flowing null geodesic can be decomposed to two timelike curves (corresponding to matter sources).