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Sgr A*- the galactic center black hole – part 1 A
The COST action “Black Holes in a Violent Universe” (MP-0905) organizes a Summer School on “Black Holes at all scales Ioannina,
Greece, September 16 and 18 Andreas Eckart
I.Physikalisches Institut der Universität zu Köln Max-Planck-Institut für Radioastronomie, Bonn
14:30-16:00 Part I: Observational methods to study the Galactic Center – SgrA* and its environment CND/mini-spiral/central stellar cluster - dust sources in the central few arcseconds
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I Observational methods to study galaxy nuclei II Structure of the Galactic Center III Variable emission from Sagittarius A*
The Galactic Center
incomplete and biased
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The Center of the Milky Way
Closest galactic center at 8 kpc High extinction of Av=30 Ak=3
Stars can only be seen in the NIR
VLA 90cm Kassim, Briggs, Lasio, LaRosa, Imamura, Hyman
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Observational methods to the Galactic Center
•imaging/daptive optics •Interferometry in the radio •Interferometry in the mm-domain •Interferometry in the NIR •imaging spectroscopy
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Direct Imaging
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SHARP NTT short exposures
star
outer space
atmosphere
telescope
image plane of the camera
Speckle Interferometry Via short exposures (typically 100 ms) the influence of the atmosphere on the image can be recorded and corrected for.
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Image Formation
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Image Formation ),(*),(),( yxPyxOyxI =
),(),(),( vupvuovui =222 |),(|),(|),(| vuTvuovui =
222 |),(|),(|),(| vuTvuovui =
image plane
Fourier plane
image is object convolved with PSF
long exposure power spectrum
short exposure power spectrum
22 |||| φiaei =
22*2|| aeeaiii ii ==×= − φφ information at high spatial frequencies is preserved!
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Seeing
),(),(),( * vuTvuTvuT S=
Seeing transfer function: Ts
Telescope tranfer function:T* (autocorrelation of aperture)
)44.3exp()(0
3/5
rw
TS
λω −≈
( ) 5/35/60 )cos(γλ ×∝r
5/1−∝ λω
222 vuw +=
0/ rλω ≈
assuming a Kolmogorov power law for the atmospheric turbulence
Fried size of turbulent cells 0rγ zenith angle angular diameter of a (Fried) seeing cell
The seeing is better in the Infrared wavelength domain!!
Also: γ should be small! Go to Chile!!
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Adaptive Optics
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Adaptive Optics
distorted wavefront is measured online and straightened via a deformable mirror
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Image Formation
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Adaptive Optics Keck II AO image of the GC
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Adaptive Optics at ESO Paranal
CONICA at VLT UT4
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MPE laser guide star at the ALFA Calar Alto AO-System
Adaptive Optics
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Adaptive Optics at ESO Paranal
28 Jan. 2006; 8 W into a fiber
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Interferometry in the radio
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Interferometry in the mm-domain
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CARMA mm-interferometer
The Combined Array for Research in Millimeter-wave Astronomy (CARMA) is a university-based interferometer consisting of six 10.4-meter, nine 6.1-meter, and eight 3.5-meter antennas that are used in
combination to image the astronomical universe at millimeter wavelengths. Located at a high-altitude site in eastern California,
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Atacama Large Millimeter Array 5000m altitude; 50 12m antennas; 70-900 GHz
Linear resolutions of a few parsecs can be reached for nearby active nuclei.
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Interferometry in the NIR
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IF simulates a large aperture telescope in terms of resolution
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ESO VLT
The 8m diameter VLT mirrors combined with high throughput instrumentation and adaptive optics will allow sensitive subarcsecond NIR spectroscopy of active nuclei.
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Sgr A*- the galactic center black hole – part 1 B
The COST action “Black Holes in a Violent Universe” (MP-0905) organizes a Summer School on “Black Holes at all scales Ioannina,
Greece, September 16 and 18 Andreas Eckart
I.Physikalisches Institut der Universität zu Köln Max-Planck-Institut für Radioastronomie, Bonn
14:30-16:00 Part I: Observational methods to study the Galactic Center – SgrA* and its environment CND/mini-spiral/central stellar cluster - dust sources in the central few arcseconds
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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The Center of the Milky Way
Closest galactic genter at 8 kpc High extinktion of Av=30 Ak=3
Stars can only be seen in the NIR
VLA 90cm Kassim, Briggs, Lasio, LaRosa, Imamura, Hyman
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Orbits of High Velocity Stars in the Central Arcsecond
Eckart & Genzel 1996/1997 (first proper motions) Eckart et al. 2002 (S2 is bound; first elements) Schödel et al. 2002, 2003 (first detailed elements) Ghez et al 2003 (detailed elements) Eisenhauer 2005, Gillessen et al. 2009 (improved elements on more stars and distance)
~4 million solar masses at a distance of ~8.3+-0.3 kpc
SgrA* and its Environment
Gillessen+ 2009
Movie: MPE
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Progress in measuring the orbits
Gillessen+ 2009
yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
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Shortest known period star
Shortest known period star with 11.5 years available to resolve degeneracies in the parameters describing the central gravitational potential (e=0.68) (Meyer et al. 2012 Sci 338, 84),
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2
32
24
Ta
GM S
π=
Für S2 ist der etwa 15 jährige Orbit geschlossen. Die Kepler‘schen Gesetze ergeben:
mit der Umlaufzeit T und der großen Halbachse a.
Für S2 ergibt das::
oSgrA MM 6* 10)3.04( ×±≈
Man kann gleichzeitig für die Entfernung lösen und erhält: 7.7+/-0.3 kpc Eisenhauer et al. 2005
Bestimmung der Masse über S2
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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Most authors claim a ~10 Msol population of black holes residing at the ‘bottom’ of the central potential well Chandra observations by Muno, Baganoff + 2008, 2009 and simulations by Freitag et al. 2006 Merritt 2009
BH density in a dynamical core
The stellar BH density is expected to be largest at a radius
of a few 0.1 pc.
END
Merritt 2009
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The Effect of Resonant Relaxation
+=∆
•MNmNm
KtRR2211)( θ
change of torque due to filed stars Equivalent angular momentum of
test star on circular orbit
Changes in L over ∆t imply changes in e and orbital plane anges::
Resonant relaxation: Rauch & Tremaine 1996 Hopeman & Alexander 2006 Merritt et al. 2010
Two stellar populations Species 1 smooth Species 2 perturbing
Sabha, Eckart, Merritt et al. 2012
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Filled circles are from integrations with m = 50 M⊙ and open circles are for m = 10 M⊙ ; number of field stars N = {25, 50, 100, 200} for both m. The abscissa is the distributed mass within S2’s apo-apsis, at r =9.4 mpc. In each frame, the points are median values from the 100 N-body integrations. (a) Changes in the argument of peri-bothron. The contribution from relativity has been subtracted. (b) Changes in the eccentricity. Solid and dashed lines are with m = 50 M⊙ and m = 10 M⊙, respectively. (c) The angle between initial and final values of L i.e. ∆θ for S2. .
Sabha et al. 2012
Average values of the changes in ∆ω, ∆θ, ∆e and for S2 over one orbital period (~16 yr) in the N-body integrations.
Remember 10.8‘ expected from Relativistic effects
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The shift due to relativity (~11′), has been subtracted. What remains is due to Newtonian perturbations (peri-bothron shift and pertrubation/scattering) from the field stars.
Histograms of the predicted peri-bothron change of S2 over one orbital period (~16 yr).
Enclosed mass up to ΘM2000
Sabha, Eckart, Merritt, Shahzamanian et al. 2012
Resonant relaxation: Rauch & Tremaine 1996 Hopeman & Alexander 2006 Merritt et al. 2010
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Newtonian and relativistic periastron shift for S2
θ∆ 2N∝
Significant contributions to perisatron shift from encounters due to granulartiy of ‘scattering‘ population : and variation in enclosed mass due to scattering population:
ω∆
2N∝
mass composition following Freitag et al. 2006
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The variance in for S2 for one orbital period (~16 yr) in the N-body integrations.
Relative variance of peri-center shift as the absolute variance over the shift itself.
ΘM10
ΘM50
N1
The absolute variance is large and of the order of the entire peri-center shift.
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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Subtraction of stars within R<0.7’’
S<1mJy in the NIR K-band Sabha et al. 2010
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Map of the 51 brightest stars close to SgrA*. The color of each star indicates its K-magnitude. The size of each symbol is proportional to the flux of the corresponding star. The position of Sgr A* is indicated as a cross at the center.. Sabha et al. 2012
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The Central S-star Cluster
luminosity function exp(-Γ) radial distribution exp(-α)
Sabha et al. 2011, 2012
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Extrapolation of the KLF power-law fit. The KLF slope of α= 0.18 and the upper limit imposed by the uncertainty in the fit ( α= 0.25) are plotted as dashed and dash-dotted lines, respectively. The black filled circles represent the data while the hollow circles represent new points based on the extrapolated KLF. The location of the detection limit is indicated by the red line. Sabha et al. 2012
all stars fainter than the faintest stars detected in the central arcsecond.
S-stars: Extrapolation to fainter luminosities
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Upper panel: 3 different snapshots of the simulation for the α= 0.25 KLF slope, power-law index Γ = -0.3 and a ~25 K-magnitude cutoff. Lower panel: The same as upper but with only the detectable blend stars visible. Right: Average of all the 104 simulation snapshots for the same setup. INTERFEROMETRY IS NEEDED to make progress! Sabha et al. 2012
Apparent stars due to blends
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Orbits of High Velocity Stars in the Central Arcsecond
Eckart & Genzel 1996/1997 (first proper motions) Eckart et al. 2002 (S2 is bound; first elements) Schödel et al. 2002, 2003 (first detailed elements) Ghez et al 2003 (detailed elements) Eisenhauer 2005, Gillessen et al. 2009 (improved elements on more stars and distance)
~4 million solar masses at a distance of ~8.3+-0.3 kpc
SgrA* and its Environment
Gillessen+ 2009
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Progress expected in determining relativistic effects
Possible hot spots orbiting SgrA* the detection of strong relativistic effects is complicated by processes in the accretion stream/outflow and relativistic disk effects
Stars are and remain the preferred (?) probs making use of NIR adaptive optics and interferometric measurments.
It is, however, unclear if there are any preturbing effects that may even further complicate the usage of stars for these high precision measurements.
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Newtonian and relativistic periastron shift for S2
Newtonian:
Relativistic:
prograde shift ∆φ
ρ = const
retrograde shift ∆φ
Rubilar & Eckart 2002 Zucker + 2006; Gillessen+ 2009; Sabha + 2012
Several stars are needed to disantangle the two effects.
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2cGMrg =
grd
=ρ
)2/1( 2ead +=
12002
≈S
Mercury
ρρ
The high-velocity Galactic Center Stars are important probes for relativistic effects
average orbital distance:
ratio to gravitational radius:
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)(/ 32
210 βββλλ OBBBz +++=∆=
Gillessen+ 2009
Observed redshift as a function of the 3 dimensional velocity β
Zucker+ 2006, Gillesen+ 2009
z: redshift β: 3 dim. velocity
offset ; Doppler; rel. effects
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21
21
,2,22 +=+= GD BBB
Observed redshift as a function of the 3 dimensional velocity β
)(/ 32210 βββλλ OBBBz +++=∆=
Zucker et al. 2006
GB ,2 : gravitational redshift effect 2
,2,02
214/ ββ GGsG BBarz +=+≡
DB ,2 : special relativistic transverse Doppler effect
1)1)(cos1( 2/12 −−+≡ −βϑβDz2
,212 2/cos βββϑβ DtransverseNewtonD BBzzz +=+=+≡
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432,2,2 10~10~)( −− >+
λδλβPGD BB
cvPeri
P ~β
effects should be observable with today’s instrumentation:
−)( 2βO
Zucker et al. 2006
full relativistic radial velocity of S2 near periaps
Contribution of the effects −)( 2βO
S2 e=0.88, r = 1500 rs S14 e=0.94 r = 1400 rs
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Progress expected in determining relativistic effects
Zucker et al. 2006 For Schwarzschild, Kerr, quadrupol and non-luminous matter contributions see also Iorio 2011, MNRAS
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Progress in measuring the orbits
Gillessen+ 2009
yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
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Shortest known period star
Shortest known period star with 11.5 years available to resolve degeneracies in the parameters describing the central gravitational potential (e=0.68) (Meyer et al. 2012 Sci 338, 84),
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yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
S2
yrsTorbit 3.05.11 ±=02.068.0 ±=e01.010.0 ±=a
S0-102
* S2
S0-102
Relativity and evolution of S-star orbits
Orbits above (smaller e) the Schwarzschild line are subject to resonant relaxation and undergo a random walk in e . For stars below that curve the orbital torques of stars with smaller semi-major axis a compete with the SMBH torque (along dash-dotted curves with different spin c). Antonini & Merritt 2013, ApJ 763 ,L10
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Staubquellen im galaktischen Zentrum
• Der Fall IRS13N fortlaufende Sternentstehung im GC? • Das staubige S-cluster Objekt (DSO)
• Ausfluß und Akkretion
Staubquellen innerhalb von 2” of SgrA*
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Proper Motions of Dusty Sources within 2” of SgrA*
Eckart et al. 2012
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Zooming in – towards IRS 13N
NIR 3.8 µm VLT NACO science verification data
500mas 23 light days
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HKL-imaging of the
IRS13N complex
with NACO Eckart et al. 2003
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HKL-colors of sources in the IRS13N complex
Eckart et al. 2003
κ L=10 -10 Lsol M=2-8 Msol Low luminosity bow shock sources. Are the IRS 13N sources at the GC Herbig Ae/Be stars?
2 4
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Proper Motions in IRS13N
K-band proper motion from red to blue
Eckart et al. 2003, 2012
Muzic et al. 2009
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Proper Motions in IRS13N
K- and L-band positions and proper
motions agree K-band emission
likely to be photospheric e.i. from stars rather
than from dust
Eckart et al. 2003, 2012 Muzic et al. 2009
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1. Modeling Approach
➢ 100 Msun molecular clump, 0.2 pc radius,
➢ Test with 10 & 50 Kelvin, isothermal gas
➢ Timescales: clump free fall time ~ 105 yr CND orbital period ~ 105 yr
➢ Semi-major axis=1.8 pc → orbital period ~105 yr,
➢ two Orbits: peri-center~0.1 pc → ecc.= 0.95 peri-center~0.9 pc → ecc.= 0.5
Jalali+2013 in prep.
IRS 13N CND
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The Galactic Center is a unique laboratory in which one can study signatures of strong gravity with
GRAVITY
LBT NIR Beam Combiner: Universitity of Cologne MPIA, Heidelberg Osservatorio Astrofisico di Arcetri MPIfR Bonn
ESO ESO E-ELT
MPE, MPIA, Paris, SIM Universitity of Cologne participation GRAVITY @ VLTI
NL leads Euro-Team Universitity of Cologne studies for METIS @ E-ELT
Cologne contribution to MIRI on JWST
JWST
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Sgr A*- the galactic center black hole – part 1 C
The COST action “Black Holes in a Violent Universe” (MP-0905) organizes a Summer School on “Black Holes at all scales Ioannina,
Greece, September 16 and 18 Andreas Eckart
I.Physikalisches Institut der Universität zu Köln Max-Planck-Institut für Radioastronomie, Bonn
14:30-16:00 Part I: Observational methods to study the Galactic Center – SgrA* and its environment CND/mini-spiral/central stellar cluster - dust sources in the central few arcseconds
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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The Center of the Milky Way
Closest galactic genter at 8 kpc High extinktion of Av=30 Ak=3
Stars can only be seen in the NIR
VLA 90cm Kassim, Briggs, Lasio, LaRosa, Imamura, Hyman
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Orbits of High Velocity Stars in the Central Arcsecond
Eckart & Genzel 1996/1997 (first proper motions) Eckart et al. 2002 (S2 is bound; first elements) Schödel et al. 2002, 2003 (first detailed elements) Ghez et al 2003 (detailed elements) Eisenhauer 2005, Gillessen et al. 2009 (improved elements on more stars and distance)
~4 million solar masses at a distance of ~8.3+-0.3 kpc
SgrA* and its Environment
Gillessen+ 2009
Movie: MPE
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Progress in measuring the orbits
Gillessen+ 2009
yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
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Shortest known period star
Shortest known period star with 11.5 years available to resolve degeneracies in the parameters describing the central gravitational potential (e=0.68) (Meyer et al. 2012 Sci 338, 84),
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2
32
24
Ta
GM S
π=
Für S2 ist der etwa 15 jährige Orbit geschlossen. Die Kepler‘schen Gesetze ergeben:
mit der Umlaufzeit T und der großen Halbachse a.
Für S2 ergibt das::
oSgrA MM 6* 10)3.04( ×±≈
Man kann gleichzeitig für die Entfernung lösen und erhält: 7.7+/-0.3 kpc Eisenhauer et al. 2005
Bestimmung der Masse über S2
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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Most authors claim a ~10 Msol population of black holes residing at the ‘bottom’ of the central potential well Chandra observations by Muno, Baganoff + 2008, 2009 and simulations by Freitag et al. 2006 Merritt 2009
BH density in a dynamical core
The stellar BH density is expected to be largest at a radius
of a few 0.1 pc.
END
Merritt 2009
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The Effect of Resonant Relaxation
+=∆
•MNmNm
KtRR2211)( θ
change of torque due to filed stars Equivalent angular momentum of
test star on circular orbit
Changes in L over ∆t imply changes in e and orbital plane anges::
Resonant relaxation: Rauch & Tremaine 1996 Hopeman & Alexander 2006 Merritt et al. 2010
Two stellar populations Species 1 smooth Species 2 perturbing
Sabha, Eckart, Merritt et al. 2012
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Filled circles are from integrations with m = 50 M⊙ and open circles are for m = 10 M⊙ ; number of field stars N = {25, 50, 100, 200} for both m. The abscissa is the distributed mass within S2’s apo-apsis, at r =9.4 mpc. In each frame, the points are median values from the 100 N-body integrations. (a) Changes in the argument of peri-bothron. The contribution from relativity has been subtracted. (b) Changes in the eccentricity. Solid and dashed lines are with m = 50 M⊙ and m = 10 M⊙, respectively. (c) The angle between initial and final values of L i.e. ∆θ for S2. .
Sabha et al. 2012
Average values of the changes in ∆ω, ∆θ, ∆e and for S2 over one orbital period (~16 yr) in the N-body integrations.
Remember 10.8‘ expected from Relativistic effects
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The shift due to relativity (~11′), has been subtracted. What remains is due to Newtonian perturbations (peri-bothron shift and pertrubation/scattering) from the field stars.
Histograms of the predicted peri-bothron change of S2 over one orbital period (~16 yr).
Enclosed mass up to ΘM2000
Sabha, Eckart, Merritt, Shahzamanian et al. 2012
Resonant relaxation: Rauch & Tremaine 1996 Hopeman & Alexander 2006 Merritt et al. 2010
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Newtonian and relativistic periastron shift for S2
θ∆ 2N∝
Significant contributions to perisatron shift from encounters due to granulartiy of ‘scattering‘ population : and variation in enclosed mass due to scattering population:
ω∆
2N∝
mass composition following Freitag et al. 2006
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The variance in for S2 for one orbital period (~16 yr) in the N-body integrations.
Relative variance of peri-center shift as the absolute variance over the shift itself.
ΘM10
ΘM50
N1
The absolute variance is large and of the order of the entire peri-center shift.
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The Evironment of SgrA*
Orbital motion of high-velocity S-stars
On the possibility to detect relativistic and Newtonian peri-center shifts • Granularity of scatterers • Search for stellar probes
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Subtraction of stars within R<0.7’’
S<1mJy in the NIR K-band Sabha et al. 2010
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Map of the 51 brightest stars close to SgrA*. The color of each star indicates its K-magnitude. The size of each symbol is proportional to the flux of the corresponding star. The position of Sgr A* is indicated as a cross at the center.. Sabha et al. 2012
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The Central S-star Cluster
luminosity function exp(-Γ) radial distribution exp(-α)
Sabha et al. 2011, 2012
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Extrapolation of the KLF power-law fit. The KLF slope of α= 0.18 and the upper limit imposed by the uncertainty in the fit ( α= 0.25) are plotted as dashed and dash-dotted lines, respectively. The black filled circles represent the data while the hollow circles represent new points based on the extrapolated KLF. The location of the detection limit is indicated by the red line. Sabha et al. 2012
all stars fainter than the faintest stars detected in the central arcsecond.
S-stars: Extrapolation to fainter luminosities
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Upper panel: 3 different snapshots of the simulation for the α= 0.25 KLF slope, power-law index Γ = -0.3 and a ~25 K-magnitude cutoff. Lower panel: The same as upper but with only the detectable blend stars visible. Right: Average of all the 104 simulation snapshots for the same setup. INTERFEROMETRY IS NEEDED to make progress! Sabha et al. 2012
Apparent stars due to blends
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Orbits of High Velocity Stars in the Central Arcsecond
Eckart & Genzel 1996/1997 (first proper motions) Eckart et al. 2002 (S2 is bound; first elements) Schödel et al. 2002, 2003 (first detailed elements) Ghez et al 2003 (detailed elements) Eisenhauer 2005, Gillessen et al. 2009 (improved elements on more stars and distance)
~4 million solar masses at a distance of ~8.3+-0.3 kpc
SgrA* and its Environment
Gillessen+ 2009
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Progress expected in determining relativistic effects
Possible hot spots orbiting SgrA* the detection of strong relativistic effects is complicated by processes in the accretion stream/outflow and relativistic disk effects
Stars are and remain the preferred (?) probs making use of NIR adaptive optics and interferometric measurments.
It is, however, unclear if there are any preturbing effects that may even further complicate the usage of stars for these high precision measurements.
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Newtonian and relativistic periastron shift for S2
Newtonian:
Relativistic:
prograde shift ∆φ
ρ = const
retrograde shift ∆φ
Rubilar & Eckart 2002 Zucker + 2006; Gillessen+ 2009; Sabha + 2012
Several stars are needed to disantangle the two effects.
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2cGMrg =
grd
=ρ
)2/1( 2ead +=
12002
≈S
Mercury
ρρ
The high-velocity Galactic Center Stars are important probes for relativistic effects
average orbital distance:
ratio to gravitational radius:
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)(/ 32
210 βββλλ OBBBz +++=∆=
Gillessen+ 2009
Observed redshift as a function of the 3 dimensional velocity β
Zucker+ 2006, Gillesen+ 2009
z: redshift β: 3 dim. velocity
offset ; Doppler; rel. effects
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21
21
,2,22 +=+= GD BBB
Observed redshift as a function of the 3 dimensional velocity β
)(/ 32210 βββλλ OBBBz +++=∆=
Zucker et al. 2006
GB ,2 : gravitational redshift effect 2
,2,02
214/ ββ GGsG BBarz +=+≡
DB ,2 : special relativistic transverse Doppler effect
1)1)(cos1( 2/12 −−+≡ −βϑβDz2
,212 2/cos βββϑβ DtransverseNewtonD BBzzz +=+=+≡
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432,2,2 10~10~)( −− >+
λδλβPGD BB
cvPeri
P ~β
effects should be observable with today’s instrumentation:
−)( 2βO
Zucker et al. 2006
full relativistic radial velocity of S2 near periaps
Contribution of the effects −)( 2βO
S2 e=0.88, r = 1500 rs S14 e=0.94 r = 1400 rs
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Progress expected in determining relativistic effects
Zucker et al. 2006 For Schwarzschild, Kerr, quadrupol and non-luminous matter contributions see also Iorio 2011, MNRAS
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Progress in measuring the orbits
Gillessen+ 2009
yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
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Shortest known period star
Shortest known period star with 11.5 years available to resolve degeneracies in the parameters describing the central gravitational potential (e=0.68) (Meyer et al. 2012 Sci 338, 84),
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yrsTorbit 4.06.15 ±=003.0883.0 ±=e002.0125.0 ±=a
S2
yrsTorbit 3.05.11 ±=02.068.0 ±=e01.010.0 ±=a
S0-102
* S2
S0-102
Relativity and evolution of S-star orbits
Orbits above (smaller e) the Schwarzschild line are subject to resonant relaxation and undergo a random walk in e . For stars below that curve the orbital torques of stars with smaller semi-major axis a compete with the SMBH torque (along dash-dotted curves with different spin c). Antonini & Merritt 2013, ApJ 763 ,L10
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Staubquellen im galaktischen Zentrum
• Der Fall IRS13N fortlaufende Sternentstehung im GC? • Das staubige S-cluster Objekt (DSO)
• Ausfluß und Akkretion
Staubquellen innerhalb von 2” of SgrA*
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Proper Motions of Dusty Sources within 2” of SgrA*
Eckart et al. 2012
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Zooming in – towards IRS 13N
NIR 3.8 µm VLT NACO science verification data
500mas 23 light days
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HKL-imaging of the
IRS13N complex
with NACO Eckart et al. 2003
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HKL-colors of sources in the IRS13N complex
Eckart et al. 2003
κ L=10 -10 Lsol M=2-8 Msol Low luminosity bow shock sources. Are the IRS 13N sources at the GC Herbig Ae/Be stars?
2 4
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Proper Motions in IRS13N
K-band proper motion from red to blue
Eckart et al. 2003, 2012
Muzic et al. 2009
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Proper Motions in IRS13N
K- and L-band positions and proper
motions agree K-band emission
likely to be photospheric e.i. from stars rather
than from dust
Eckart et al. 2003, 2012 Muzic et al. 2009
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1. Modeling Approach
➢ 100 Msun molecular clump, 0.2 pc radius,
➢ Test with 10 & 50 Kelvin, isothermal gas
➢ Timescales: clump free fall time ~ 105 yr CND orbital period ~ 105 yr
➢ Semi-major axis=1.8 pc → orbital period ~105 yr,
➢ two Orbits: peri-center~0.1 pc → ecc.= 0.95 peri-center~0.9 pc → ecc.= 0.5
Jalali+2013 in prep.
IRS 13N CND
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The Galactic Center is a unique laboratory in which one can study signatures of strong gravity with
GRAVITY
LBT NIR Beam Combiner: Universitity of Cologne MPIA, Heidelberg Osservatorio Astrofisico di Arcetri MPIfR Bonn
ESO ESO E-ELT
MPE, MPIA, Paris, SIM Universitity of Cologne participation GRAVITY @ VLTI
NL leads Euro-Team Universitity of Cologne studies for METIS @ E-ELT
Cologne contribution to MIRI on JWST
JWST