scaling properties of afterglow radiation - … · scaling properties of afterglow radiation a ......
TRANSCRIPT
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Scaling Properties of Afterglow Radiation
A. MacFadyenH. van Eerten
P. DuffelJ. Zrake
(NYU)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
GRB photons are made far away from
engine.
Can’t observe engine directly with light.
(neutrinos, gravitational
waves?)
Electromagnetic process or neutrino annihilation to tap power of central compact object.
Hyper-accreting black hole or ms magnetar
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
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Tess
Duffell & MacFadyen (2011)
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Tess
Duffell & MacFadyen (2011)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Afterglow Jet Dynamics
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Ej = 2e52θj=0.05n=1cm^-3
van Eerten & AM (2011)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
0.0 0.1 0.2 0.3 0.4 0.5 0.6
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y (
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m)
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m)
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log10e
(a)
147 days
(b)
256 days
(c)
372 days
(d)
970 days
(e)
27.6 years
(f)
150.3 years
0 0.19 0.79
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
1018
1019
R (
cm
)
(a)
0.01
0.10
1.00
10.00
!!v_
r
(b)
100 1000 10000Time (day)
10-6
10-4
10-2
100
e (
erg
/cm
^3)
(c)
Blandford- McKee
Sedov
θ = 0,0.19,π/4Granot+(2001)Zhang&AM(2009)vanEerten+(2010)Wygoda+(2011)deColle+(2012)Vlasis+ (2012)
θj = 0.2
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
DeColle+ (2012)
Zhang & AM (2009)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
1e-05
0.0001
0.001
0.01
0.1
1
4e+06 4.2e+06 4.4e+06 4.6e+06 4.8e+06 5e+06 5.2e+06 5.4e+06
"max.dat" using 1:(abs($4-$8)/$8)"max.dat" using 1:(abs($5-$9)/$9)
"max.dat" using 1:(abs($6-$10)/$10)
70
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4e+06 4.2e+06 4.4e+06 4.6e+06 4.8e+06 5e+06 5.2e+06 5.4e+06
"max.dat" using 1:4"max.dat" using 1:8
"max.dat" using 1:11
AM (in prep, 2012)
Γ
t (s)
Fractional errors in Γ, P, ρ
120
70
θjet=0.05Eiso=1e53
n=1
Blandford-McKee
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2D Moving Mesh: Γ = 110
0
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0 500000 1e+06 1.5e+06 2e+06 2.5e+06 3e+06 3.5e+06 4e+06 4.5e+06
"max.dat" using 2:4"max.dat" using 2:8
t
Γ
Analytic (Blandford-McKee; green)Numerical 2D on-axis (AM; red)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
50
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2e+06 2.2e+06 2.4e+06 2.6e+06 2.8e+06 3e+06 3.2e+06
"max.dat" using 1:4"max.dat" using 1:8
"max.dat" using 1:11
Γ
t
Γ = 300
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Synchrotron linear radiative transfer
the challenge: the jet nearly keeps up with its radiation
For a given observer / arrival time,a single intersecting plane at each emission time
- Optically thin limit:Just count all emission
- Emission & absorption, no scattering(i.e. synchrotron radiation):linear radiative transfer for all raysperpendicular to intersecting plane
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
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Off-Axis Light Curves
θ=0 θ=0.1 θ=0.2
θ=0.4 θ=0.8 θ=π/2
1e9 Hz
1e17 Hz
van Eerten, Zhang & AM (ApJ, 2010)
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A. MacFadyen (NYU)
On Axis
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A. MacFadyen (NYU)
On Edge
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A. MacFadyen (NYU)
Estimated Jet Break Timefor Off-Axis Observer
θ0
θobs
Theta_likely = 2/3 Theta_0
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Analytical jet models are limited when it comes to e.g.:•Trans-relativistic deceleration of jets and emergence of the counterjet
•Fluid profile of spreading jets
•Off-axis observations (including orphan afterglows & slightly off-axis)
•Shape of the jet break in the light curve
Analytical models vs. numerical jet simulations
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Analytical jet models are limited when it comes to e.g.:•Trans-relativistic deceleration of jets and emergence of the counterjet
•Fluid profile of spreading jets
•Off-axis observations (including orphan afterglows & slightly off-axis)
•Shape of the jet break in the light curve
Analytical models vs. numerical jet simulations
All these issues can be addressed by numerical simulations•High-resolution relativistic hydrodynamics, adaptive mesh-refinement with RAM
•radiative transfer for synchrotron radiation
•This talk: even complex 2D simulation results are scalable
•This talk: simulation-based broadband data fitting now possible
•This talk: a tool for improved survey predictions
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Generic light curves optical & low radiojet has opening angle of 0.4 rad
Examples of afterglow light curves
GRB 990510 plus best fit
These are calculated by applyingradiative transfer to the jet simulation results
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From AMR RHD simulation to light curve
Simulate for energy E, density n, opening angle θ, then synchrotron radiative transfer calculation
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From AMR RHD simulation to light curve
Simulate for energy E, density n, opening angle θ, then synchrotron radiative transfer calculation
Business as usual: rerun simulation for different E, n
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More on scalings 1 / 2
blast wave variables:
some observations...
fluid equations can be rewritten in terms of dimensionless parameters:
dynamics invariant under transform of :
In other words, only one (numerically challenging!) simulation needed.
(A and B not explicitly required. Just compensate in r and t, sinceenergy over density is a combination of cm and s)
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limiting cases:
- ultrarelativistic:
- nonrelativistic:
so spherical (no ) blast waves are self-similar in these limits:
“Blandford-McKee” relativistic
“Sedov-Taylor” non-relativistic
intermediate stage in 2D more complex
Sedov-Taylor blast waveimage: Landau & Lifshitz 1952
More on scalings 2 / 2
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Scaling of Jet Dynamics
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Calculate jet dynamics by applying scaling
Different E and n can be obtained by scaling: greatly reduces parameter space
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
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Scalings, the full formulae
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Calculate light curves by applying scaling
All light curves can be calculated by scaling a basic set for E and n
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Calculate light curves by applying scaling
Once done, no reference to simulations necessary anymore!
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summarizing: what scales and what doesn’t?Scales throughout the ejecta evolution:
Dynamics: Explosion energy (through observer time) Circumburst medium density (through observer time)
Radiation: magnetic field, particle energy, particle number fraction (i.e. they all scale, this is neither new nor unexpected)
Left in parameter space:Dynamics: initial jet opening angle circumburst density structure (‘k’ )
Radiation / observer position: observer angle [ transitions between spectral regimes, use sharp / smooth spectral powerlaws ]
This implies:1. Run simulations for different jet opening angles, and for wind and ISM2. calculate light curve characteristics for different observer angles3. collect resulting overview of parameter space and link to fit code / rate predictions etc.
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Example application: model fit to GRB 990510
• Iterative fit to radio, optical & X-ray data, based on 2D jet simulations
• Synchrotron slope p > 2, in contrast to 1.8 from Panaitescu & Kumar (2002)
• reduced χ-squared 3.235 for off-axis observer, while 5.389 on-axis
• observer angle θ is 0.0016 rad, one third of jet angle 0.0048 rad
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Example application: characteristic behavior
In the top row: scaling works for all observer angles
In the bottom row: schematic synchrotron, synchrotron break frequency, cooling break frequency
new insight: characteristics change quickly following jet break
time (s)time (s)frequency
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The ability to quickly generate light curves and GRB afterglows to probe parameter space...
generic low energy light curvesfor different angles and frequencies
(orphan afterglows? LOFAR, SKA? etc.)
Example application: generic light curves on-line
http://cosmo.nyu.edu/afterglowlibrary
On-line website with downloadable light curves:
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
http://cosmo.nyu.edu/afterglowlibrary/
Supported by NASA NNX10AF62G
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Summary- Both jet dynamics and broadband light curves are scalable in energy in density
as a result we now can
- iteratively fit complex 2D simulation results to data (e.g. grb990510)
- calculate arbitrary parameter value light curves ‘on demand’
which is useful for exploring parameter space (i.e. surveys) and readily generalized to similar blast wave / jet phenomena: - both long and short GRB’s - supernova blast waves (talks Assaf Horesh, Laura Chomiuk) - tidal disruption jets (talk Brian Metzger) - ....?
all light curves, spectra, fit codes etc. available on-line:
(in the [near] future also fit code and continuous parameter space light curves)
http://cosmo.nyu.edu/afterglowlibrary
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Andrew MacFadyen (NYU/ITC) ITC Lunch Feb 24, 2011
MARA
Zrake & MacFadyen (2011)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12Zrake & AM (2012)
Turbulent amplification of Magnetic Field
! B = 10-2
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
Conclusions• Jet Dynamics Scale• Light Curves Scale• Γ numerical ≳ 200 (≫1/θjet)• Fit data with full dynamics• tjet ⇒ θjet + θobs ⇒ Ejet ↓• http://cosmo.nyu.edu/afterglowlibrary
• Turbulence ⇒ εB = 10-2
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
ms variability + non-thermal spectrum
GRB Light Curves
M = E/ Γ c2 ~ 10-6 Msun
Compactness -> Г ≥ 100 Ultra-relativistic
Ultra-clean
SN2003dh
Matheson et al.
~0.5 Msun
Ni56
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Tess
Duffel & AM (2011)
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12
GRBs from Stars• Need ejecta to escape star before engine dies.
T_engine > T_escape• T_escape ~ 2 x T_light (~3 s = 10^11 cm)• T_engine >> T_dyn for BH or NS• T_ACCRETE ~ 20-100s s for massive star• Need angular momentum (not too much)• Need to lose H envelope -> WR progenitor and
Type Ibc supernova (if Ni56)
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A. MacFadyen (NYU)
Collapsar - Disk and Jet• pre-SN 15 Msun Helium star• Newtonian Hydrodynamics (PPM)• alpha viscosity• rotation• photodisintegration (NSE alpha, n, p)• neutrino cooling, thermal + URCA optically thin• Ideal nucleons, radiation, relativistic degenerate electrons,
positions• 2D axisymmetric, spherical grid• self gravity • Rin = 9 Rs Rout = 9000 Rs
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A. MacFadyen (NYU) Fermi/Swift GRBs 2012, Munich 5/8/12