Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources...
Transcript of Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources...
![Page 1: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/1.jpg)
Black holes and Active Galaxies
and X-ray Astronomy
A personal view of UK-Japan collaboration
Prof Chris Done, University of Durham
![Page 2: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/2.jpg)
X-rays blocked by atmosphere
X-rays Visible Radio
Wavelength
![Page 3: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/3.jpg)
Observing black holes?
• How to test this ?
• The thing about a black
hole, its main
distinguishing feature is its
black! And the thing about
space, your basic space
colour is its black! So how
are you supposed to see
them ? Red Dwarf
![Page 4: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/4.jpg)
Observing black holes?
• How to test this ?
• The thing about a black
hole, its main
distinguishing feature is its
black! And the thing about
space, your basic space
colour is its black! So how
are you supposed to see
them ? Red Dwarf
![Page 5: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/5.jpg)
Accretion
• Single particles orbit
• Gravitational orbits -
inner ones faster
• Continuous ring of gas –
friction dissipates energy
so material can fall
inwards
• Enormous energy
released by infalling
matter - BRIGHT
accretion discs glowing
X-ray hot
![Page 6: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/6.jpg)
• Differential Keplerian rotation
• Friction: gravity heat
• Thermal emission: L = A T4
• Temperature increases inwards
until minimum radius Rlso(a*)
For a*=0 and L~LEdd Tmax is
• 1 keV (107 K) for 10 M
• 10 eV (105 K) for 108 M
Spectra of accretion flow: disc
Log
Log
f(
![Page 7: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/7.jpg)
• Differential Keplerian rotation
• Friction: gravity heat
• Thermal emission: L = A T4
• Temperature increases inwards
until minimum radius Rlso(a*)
For a*=0 and L~LEdd Tmax is
• 1 keV (107 K) for 10 M
• 10 eV (105 K) for 108 M
Spectra of accretion flow: disc
Log
Log
f(
![Page 8: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/8.jpg)
X-rays blocked by atmosphere
X-rays Visible Radio
Wavelength
![Page 9: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/9.jpg)
Rocket science!
![Page 10: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/10.jpg)
X-rays are how black holes
were discovered
• Nobel Prize to Giaconni in 2002 for discovery of cosmic
X-ray sources
• Flew Geiger counter on a rocket in 1962!
• Discovered accretion powered sources
• BH were proposed before this, but no-one had thought
of accretion as a way that we could see them!
• X-ray astronomy transforms black holes from theoretical
speculation to observable objects
![Page 11: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/11.jpg)
Orbits in general relativity
• Newtonian orbits
• Gravity attractive – wants
to be closer in.
• but if closer then rotate
faster due to angular
momentum conservation
• Bigger outward centrifugal
force!
• Stable orbits everywhere
energy
r
Newtonian
gravity -1/r
Angular
momentum,
barrier 1/r2
![Page 12: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/12.jpg)
Orbits in general relativity
• Not true in general relativity
• When within a factor ~3 of
the event horizon then no
more stable orbits
• Last stable circular orbit –
sets the inner edge of the
disc!
• Depends on black hole spin
![Page 13: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/13.jpg)
• Differential Keplerian rotation
• Friction: gravity heat
• Thermal emission: L = A T4
• Temperature increases inwards
until minimum radius Rlso(a*)
For a*=0 and L~LEdd Tmax is
• 1 keV (107 K) for 10 M
• 10 eV (105 K) for 108 M
Spectra of accretion flow: disc
Log
Log
f(
![Page 14: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/14.jpg)
Observed disc spectra in BHB!!
• Fit disc models to get
maximum temperature
and flux in the disc
• L=2 D2 F /cos i = A T4
• A=2 rin2 Rg
2
(Rg=GM/c2)
• Get one measure of
inner radius IF we know
the system parameters! Kolehmainen et al 2010
GX-339-4
![Page 15: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/15.jpg)
BHB – Quasars for the impatient
• BRIGHT! Huge amounts of data, long term variability (days –years) in mass accretion
• LMC X-3 as seen by the MAXI all sky monitor on ISS
DGK07
2 years
![Page 16: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/16.jpg)
• Differential Keplerian rotation
• Friction: gravity heat
• Thermal emission: L = A T4
• Temperature increases inwards
until minimum radius Rlso(a*)
For a*=0 and L~LEdd Tmax is
• 1 keV (107 K) for 10 M
• 10 eV (105 K) for 108 M
Spectra of accretion flow: disc
Log
Log
f(
![Page 17: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/17.jpg)
• Differential Keplerian rotation
• Friction: gravity heat
• Thermal emission: L = A T4
• Temperature increases inwards
until minimum radius Rlso(a*)
For a*=0 and L~LEdd Tmax is
• 1 keV (107 K) for 10 M
• 10 eV (105 K) for 108 M
Spectra of accretion flow: disc
Log
Log
f(
![Page 18: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/18.jpg)
Variability of disc: long timescale
• L/LEdd AT4max
• Constant size scale – last stable orbit!! BH spin
![Page 19: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/19.jpg)
Disc spectra: last stable orbit
• L/LEdd T4max (Ebisawa et
al 1993; Kubota et al
1999; 2001)
• Constant size scale – last
stable orbit!!
L/LEdd R
adiu
s
![Page 20: Black holes and Active Galaxies and X-ray Astronomyastro.dur.ac.uk/~done/gr/l4_isco.pdfX-ray sources • Flew Geiger counter on a rocket in 1962! • Discovered accretion powered sources](https://reader034.fdocuments.us/reader034/viewer/2022042318/5f07b8647e708231d41e66a8/html5/thumbnails/20.jpg)
Done, Gierlinski & Kubota 2007
Observed disc spectra
a=0-0.7
a~0.65
a<0.7
a<0.9
a=0-0.8