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Edo Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech)Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson (OSU)
Rodrigo Fernandez, Eliot Quataert, Dan Kasen, Geoff Bower (UC Berkeley)Indrek Vurm, Romain Hascoet, Andrei Beloborodov (Columbia), N. Bucciantini (INAF)
Brian MetzgerColumbia University
The Central Engines of Short DurationGamma-Ray Bursts
In CollaborationIn Collaboration withwith
““Gamma-Ray BurstsGamma-Ray Bursts”” November 14, 2013 - YITP, Kyoto, November 14, 2013 - YITP, Kyoto, JapanJapan
NSNS BHBH⇔
NSNS ⇔ NSNS
![Page 2: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/2.jpg)
Neutron Star Binary Mergers
NSNS NSNSΩΩ
LIGO (North America)LIGO (North America)
Virgo (Europe)Virgo (Europe)
Sky Error Regions ~ 10-100 degSky Error Regions ~ 10-100 deg2
⇒ ~ 103-104 galaxies
BHBH NSNS
Nissanke et a. 2011
““AdvancedAdvanced”” LIGO/Virgo (>2016) LIGO/Virgo (>2016)Range ~ 200-500 Range ~ 200-500 MpcMpc
Detection Rate Detection Rate ~ 1-100 yr~ 1-100 yr-1-1
![Page 3: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/3.jpg)
Astrophysical Origin of R-Process Nuclei Core Collapse Supernovae or NS Binary Mergers?
!
˙ M A >130 ~ 5 "10#7 M! yr -1Galactic Galactic r-process r-process rate:rate:
Fraction ofFraction of r-Processr-Processfrom NS Mergers:from NS Mergers:
!
fR ~˙ N merge
10"4 yr-1
#
$ %
&
' (
M ej
10"2 M!
#
$ %
&
' (
(Qian et al. 2000)
Requires (e.g. Hoffman et al. 1997) (1) low Ye (2) high entropy (3) fast expansion
![Page 4: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/4.jpg)
Courtesy M
. Shibata (Tokyo U
)
Numerical Simulation - Two 1.4 MNumerical Simulation - Two 1.4 M NSs
![Page 5: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/5.jpg)
Electromagnetic Counterparts of NS-NS/NS-BH Mergers
ShortGRB
Metzger & Berger 2012
‘‘KilonovaKilonova’’
Afterglow
![Page 6: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/6.jpg)
Electromagnetic Counterparts of NS-NS/NS-BH Mergers
ShortGRB
Metzger & Berger 2012
‘‘KilonovaKilonova’’
Afterglow
![Page 7: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/7.jpg)
Courtesy M
. Shibata (Tokyo U
)
Numerical Simulation - Two 1.4 MNumerical Simulation - Two 1.4 M NSs
![Page 8: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/8.jpg)
Remnant Accretion Disk
• Disk Mass ~0.01 - 0.1 M & Size ~ 10-100 km• Hot (T > MeV) & Dense (ρ ~ 108-1012 g cm-3)• Neutrino Cooled: (τν ~ 0.01-100)• Equilibrium ⇒ Ye ~ 0.1
Lee et al. 2004
!
e" + p#$ e + n
!
e+ + n"# e + p vsvs..
!
˙ M ~ 10"2 "10M! s-1
Short GRBEngine?
Accretion RateAccretion Rate
!
t visc ~ 0.1 M•
3M!
"
# $
%
& '
1/ 2(0.1"
# $
%
& ' )1 Rd
100 km"
# $
%
& '
3 / 2 H /R0.5
"
# $
%
& ' )2
s
(e.g. Ruffert & Janka 1999; Shibata & Taniguchi 2006; Faber et al. 2006; Chawla et al. 2010; Duez et al. 2010; Foucalt 2012; Deaton et al. 2013)
![Page 9: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/9.jpg)
Relativistic Jets and Short GRBsR
ezzo
lla e
t al.
2010
MHD Powered ν Powered
Aloy et al. 2005
OR
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Relativistic Jets and Short GRBsR
ezzo
lla e
t al.
2010
MHD Powered ν Powered
Aloy et al. 2005
How is [Large Scale] B-Field
Generated?
Inefficient! (
X-ray fla
res?)
OR
![Page 11: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/11.jpg)
Short GRBs Rare within aLIGO/Virgo VolumeM
etzger & B
erger 2012
θθjj
Redshift z
Det
ectio
n R
ate
>z
(yr
-1)
!
f" ~ 3.4 #$ j2
2 ~ 0.07$ j0.2
%
& '
(
) *
2
Detectable fraction by all sky γ-ray telescope
!!!!!!
Swift ShortGRBs
![Page 12: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/12.jpg)
Relativistic Blastwave
Zhang & MacFadyen 2009
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Electromagnetic Counterparts of NS-NS/NS-BH Mergers
ShortGRB
Metzger & Berger 2012
‘‘KilonovaKilonova’’
Afterglow
![Page 14: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/14.jpg)
Neutron-Rich Ejecta
Dynamical Tidal TailsDynamical Tidal Tails(e.g. Janka et al. 1999; Lee & Kluzniak 1999; Ruffert & Janka 2001; Rosswog et al. 2004; Rosswog 2005; Shibata &Taniguchi 2006; Giacomazzo et al. 2009; Duez et al. 2010; East et al. 2012; Hotokezaka et al. 2013; Bauswein+13)
Mej ~ 10-4 - 0.1 M
Full GR / Simple EOS / Circular
Newtonian / Realistic EOS / Eccentric
Hotokezaka et al. 2013
Model Mej (10-3 M)
!
Ye "np
np + nn# 0.05
![Page 15: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/15.jpg)
(e.g. Janka et al. 1999; Lee & Kluzniak 1999; Ruffert & Janka 2001; Rosswog et al. 2004; Rosswog 2005; Shibata &Taniguchi 2006; Giacomazzo et al. 2009; Duez et al. 2010; East et al. 2012; Hotokezaka et al. 2013; Bauswein+13)
!
Ye "np
np + nn# 0.05
Neutron-Rich Ejecta
Dynamical Tidal TailsDynamical Tidal Tails
Mej ~ 10-4 - 0.1 M
Full GR / Simple EOS / Circular
Newtonian / Realistic EOS / Eccentric
Disk Outflows Neutrino-Powered (Early)(e.g. McLaughlin & Surman 05; Surman+08; BDM+08; Dessart+09; Wanajo & Janka 12)
Recombination-Powered (Late)Recombination-Powered (Late)(e.g. (e.g. Beloborodov Beloborodov 08; BDM+08; BDM+08, 09; Lee+09; Fernandez & BDM 13)08, 09; Lee+09; Fernandez & BDM 13)
Mej = fwMd ~ 10-3-10-2 (fw/0.1) M
Hotokezaka et al. 2013
Model Mej (10-3 M)
!
Ye ~ ???
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R-Process Network (neutron captures, photo-dissociations, α- and β-decays, fission)as
use
d in
Met
zger
et a
l. 20
10 (m
ovie
cou
rtesy
A. A
rcon
es &
G. M
artin
ez-P
ined
o)
![Page 17: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/17.jpg)
RadioactiveRadioactive HeatingHeating of Merger of Merger EjectaEjecta(BDM et al.(BDM et al. 2010; Roberts et al. 2011; 2010; Roberts et al. 2011; Goriely Goriely et al. 2011; et al. 2011; Korobkin Korobkin et al. 2012; Bauswein et al. 2013)et al. 2012; Bauswein et al. 2013)
Dominant β-Decays at t ~ 1 day: 132,134,135 I, 128,129Sb,129Te,135Xe
YYee = 0.1 = 0.1B
DM
et al. 2010
∝∝ t t-1.3-1.3
Relatively insensitive to details (Ye, expansion history, NSE or not)
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Blackbody Model
Bolometric LuminosityBolometric Luminosity Color EvolutionColor Evolution
““kilo-novakilo-nova”” BD
M et al. 2010
Fe Opacity
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High Opacity of the Lanthanides(Kasen et al. 2013; Tanaka & Hotokezaka 2013)
Kas
en e
t al.
2013
“Fe”
lanthanides
Tanaka & Hotokezaka 2013
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Blackbody Model
Bolometric LuminosityBolometric Luminosity Color EvolutionColor Evolution
““kilo-novakilo-nova”” BD
M et al. 2010
Fe Opacity
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Blackbody Model
Bolometric LuminosityBolometric Luminosity Color EvolutionColor Evolution
““kilo-novakilo-nova”” BD
M et al. 2010
Fe Opacity
YY e >
0.3
YY e <
0.3
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Neutron-Rich Ejecta
Dynamical Tidal TailsDynamical Tidal Tails(e.g. Janka et al. 1999; Lee & Kluzniak 1999; Ruffert & Janka 2001; Rosswog et al. 2004; Rosswog 2005; Shibata &Taniguchi 2006; Giacomazzo et al. 2009; Duez et al. 2010; East et al. 2012; Hotokezaka et al. 2013)
Mej ~ 10-4 - 0.1 M
Full GR / Simple EOS / Circular
Newtonian / Realistic EOS / Eccentric
Disk Outflows Neutrino-Powered (Early)(e.g. McLaughlin & Surman 05; Surman+08; BDM+08; Dessart+09)
Recombination-Powered (Late)Recombination-Powered (Late)(e.g. (e.g. Beloborodov Beloborodov 08; BDM+08; BDM+08, 09; Lee+09; Fernandez & BDM 13)08, 09; Lee+09; Fernandez & BDM 13)
Mej = fwMd ~ 10-3-10-2 (fw/0.1) M
Hotokezaka et al. 2013
Model Mej (10-3 M)
!
Ye " 0.05
!
Ye ~ ???
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Courtesy M
. Shibata (Tokyo U
)
Numerical Simulation - Two 1.4 MNumerical Simulation - Two 1.4 M NSs
![Page 24: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/24.jpg)
Two ComponentLight Curve
tidal tail:r-process
disk winds:
r-process or Fe?
Barnes & Kasen 2013
Blue
Red
or
See also Grossman+13
![Page 25: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/25.jpg)
Loca
l Dis
k M
ass Σπr
2 (M
)
Angular MomentumAngular Momentum
EntropyEntropy
Nuclear CompositionNuclear Composition
HeatingHeatingCoolingCooling
BH!
"#"t
=3r""r
r1/ 2 ""r
$#r1/ 2( )%
& ' (
) *
!
T dSdt
= ˙ q visc " ˙ q #
!
dYedt
= ("e +n# p$ + "e % p# n$ ) 1%Ye %1% X f
2&
' (
)
* +
,
- .
/
0 1
Viscous Evolution of theRemnant Disk
Metzger, Piro & Quataert 2008, 2009
t = 0.01 s
t = 1 s
![Page 26: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/26.jpg)
Delayed Disk Winds (‘Evaporation’)
• Recombination: n + p ⇒ He
• Thick Disks Marginally Bound
After t ~After t ~ 1 seconds, R ~ 300 km & 1 seconds, R ~ 300 km & T < 1 T < 1 MeVMeV
EEBINDBIND ~ GM ~ GMBHBHmmnn/2R ~/2R ~ 5 5 MeV MeV nucleonnucleon-1-1
ΔΔEENUCNUC ~ ~ 7 7 MeV MeV nucleonnucleon-1-1
![Page 27: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/27.jpg)
Delayed Disk Winds (‘Evaporation’)
• Recombination: n + p ⇒ He
• Thick Disks Marginally Bound
⇒}After t ~After t ~ 1 seconds, R ~ 300 km & 1 seconds, R ~ 300 km & T < 1 T < 1 MeVMeV
EEBINDBIND ~ GM ~ GMBHBHmmnn/2R ~/2R ~ 5 5 MeV MeV nucleonnucleon-1-1
ΔΔEENUCNUC ~ ~ 7 7 MeV MeV nucleonnucleon-1-1
Sizable Fraction of Initial Disk Unbound!Sizable Fraction of Initial Disk Unbound!
BH
Disk BlowsApart
![Page 28: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/28.jpg)
Axisymmetric Torus Evolution
• P-W potential with MBH = 3,10 M
• hydrodynamic α viscosity
• NSE recombination 2n+2p ⇒ 4He
• run-time Δt ~ 1000-3000 torb
• neutrino self-irradiation: “light bulb”+ optical depth corrections:
(Fernandez & Metzger 2012, 2013)
R ∈ [2,2000] Rg
Nr = 64 per decadeNθ = 56
angular emissionpattern
peak emission
Equilibrium TorusMt ~ 0.01-0.1 M
R0 ~ 50 kmuniform Ye = 0.1
![Page 29: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/29.jpg)
![Page 30: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/30.jpg)
Late Disk Outflows (Evaporation)
Time (s)
!
˙ M BH
!
˙ M out (with " recombination)
!
˙ M out (NO " recombination)
• unbound outflow poweredby α recombination andviscous heating
• neutrino heatingsubdominant
![Page 31: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/31.jpg)
Late Disk Outflows (Evaporation)
Time (s)
!
˙ M BH
!
˙ M out (with " recombination)
} Mej ~ 0.05 - 0.2 M0.05 - 0.2 Mtt
Vej ~ 0.1 c
!
˙ M out (NO " recombination)
outflow robust
• unbound outflow poweredby α recombination andviscous heating
• neutrino heatingsubdominant
![Page 32: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/32.jpg)
Outflow Composition
‘seed’ nuclei form (T<5×109 K)M
ass
per b
in (M
)Ye Freeze Out
YYee
entropyentropy
ttexpexp XXHeHe
!
nseed
>100" A >130
!
XHef ~ 10"2 S
kb nuc-1
#
$ %
&
' (
"3 / 2
1" 2Ye( )"1/ 2 texp
0.1 s#
$ %
&
' (
⇒⇒ r-process r-process (including lanthanides)(including lanthanides)
then α-process (Woosley & Hoffman 92)
t = 0.03 s
t = 0.3 s
t = 3 s
![Page 33: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/33.jpg)
Composition (Preliminary)
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Implications of Neutron-Rich Outflows• Robust heavy r-process source (distinct from dynamical ejecta)
• Disk outflow emission hard to distinguish from tidal tail– High opacity of lanthanides ⇒ both produce RED and long (~WEEK) kilonova
!
˙ M A>130Galactic ~ 5 "10#7 M! yr -1
(Qian 2000)
Barnes &
Kasen 2013
Gro
ssm
an e
t al.
2013
tidal tail
disk wind
![Page 35: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/35.jpg)
(cf. Berger+13; de Ugarte Postigo+13 ; Fong+13 )
0.01 M
0.1 M
If true, confirms association of short GRBs and NS-NS mergers
![Page 36: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/36.jpg)
0.01 M
0.1 M
• confirms association of shortGRBs with NS mergers
• counterpart would ~21-22mag at 200 Mpc (detectablewith big glass)
• minimum r-processcontribution from NS mergers
!
˙ M r ~RSGRB " Mej
ngal
~ 10#8 Mpc-3 yr -1 " 0.03M!
0.03 gal Mpc-3
~ 10#8 M! yr -1 gal-1 ~ 0.02 ˙ M MW
Implications (if true)(see also Berger+13; de Ugarte Postigo+13; Fong+13 )
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Two ComponentLight Curve
tidal tail:r-process
disk winds:
r-process or Fe?
Blue
Red
or
Barnes & Kasen 2013
Grossman+13
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Two ComponentLight Curve
tidal tail:r-process
disk winds:
r-process or Fe ?
Blue
Red
Barnes & Kasen 2013
Grossman+13
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Two ComponentLight Curve
tidal tail:r-process
disk winds:
r-process or Fe ?
Blue
Red
or
Barnes & Kasen 2013
Grossman+13
![Page 40: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/40.jpg)
Two ComponentLight Curve
tidal tail:r-process
disk winds:
r-process or Fe ?
Blue
Red
NS
ν
ν
ν
ν
!
"e + n#e$ + p
Barnes & Kasen 2013
Grossman+13
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Neutrinos from NS RemnantN
eutr
ino
Lum
inos
ity (e
rg s
-1) Prompt BHPrompt BH
(Fernandez & BDM 13)
Cooling NSCooling NS
Time after merger (s)
See talk by Albino PeregoNS Lifetime
Ye
0.2
Disk outflow composition
0.3
0.4
~ms ~100 ms ∞
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Indefinitely Stable Neutron Star Remnant?(e.g. BDM+08; Ozel et al. 2010; Bucciantini et al. 2012; Zhang 13; Giacomazzo & Perna 13; Falcke & Rezzolla 13; Kiziltan 2013)
• Requires: low total mass binary, stiff EOS*, and/or mass loss during merger*supported by recent discovery of 2M NS by Demorest et al. 2011
• Rotating near centrifugal break-up with spin period P ~ 1 ms
• Magnetic field amplified by rotational energy ⇒ “Magnetar” ?
Giacomazzo & Perna 2013
(e.g. Thompson & Duncan 92; Price & Rosswog 2006; Zrake & MacFadyen 2013)
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Short GRBs with Extended Emission
BATSE Examples (Norris & Bonnell 2006)
GRB080503SEE/SGRB ~ 30
Perley, BDM et al. 2009
GRB 050709
1/5 Swift Short Bursts have X-ray Tails
Rapid Variability ⇒ Ongoing Engine Activity
Energy up to ~30 times Burst Itself!
Extended EmissionExtended Emission
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(BDM et al. 2008; Bucciantini, BDM et al. 2012; cf. Gao & Fan 2006 )
Magnetar wind confined by merger ejecta
Buc
cian
tini e
t al.
2011
Theoretical Light Curvesvs. observed X-ray tails
(magnetar outflow model from Metzger et al. 2011)
P0 = 1.5 ms,Bdip = 2×1015 GJet
MagnetarWind
MergerEjecta
Magnetar Spin-Down Powered Extended Emission
Jet may continue to inject energy into forward shock orproduce lower level prompt emission
(Zhang & Meszaros 2001; Dall’Osso et al. 2011; Rowlinson et al. 2013; Gompertz et al. 2013)
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Millisecond Magnetar Wind NebulaMetzger & Piro, submitted (see also Yu et al. 2013)
Bromberg et al. 2011
time for jet toescape envelope
!
Lj ~ Lsd =µ2"4
c 3jet power ∝ pulsar luminosity
⇒ Jet ‘choked’ behind ejecta at late times
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Millisecond Magnetar Wind NebulaMetzger & Piro, submitted (see also Yu et al. 2013)
Bromberg et al. 2011
time for jet toescape envelope
!
Lj ~ Lsd =µ2"4
c 3jet power ∝ pulsar luminosity
⇒ Jet ‘choked’ behind ejecta at late times
1. 2.
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Non-Thermal (UV / X-rays)Source: cooling e+/- pairs (pulsar)
Sinks: PdV work, absorption by ejecta walls
Thermal Bath (Optical)Source: re-emission of X-rays by ejecta walls
Sinks: PdV work, radiative diffusion
Ejecta Ionization State- Balance photo-ionization with recombination in
ionized layer(s)
- Sets ejecta albedo (thermalization efficiency)
Evolution Model for Millisecond Pulsar Wind Nebulae
Fe1+
Fe2+
Fe3+
(BDM, Vurm, Hascoet & Beloborodov 2013; BDM & Piro 2013)
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Example (Mej=10-2 M; Bd =1015 G) Optical [Solid], X-ray [Dashed] Light Curves
![Page 49: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/49.jpg)
Example (Mej=10-2 M; Bd =1015 G) Optical [Solid], X-ray [Dashed] Light Curves
?
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Example (Mej=10-2 M; Bd =1015 G) Optical [Solid], X-ray [Dashed] Light Curves
e+/-
τpairs
τej
Peak Luminosity
!
" #$ pairs$ ej tpeak
% 2.7 Bd1015G&
' (
)
* + ,2 / 3 Mej
10,2M!
&
' (
)
* +
,2 / 3 vejc
&
' (
)
* +
5 / 6
!
Lopt,peak " #$3 / 2Lsd tpeak
χ > 1 ⇒ X-rays lose most of their energy to P dVwork before reaching ejecta walls to be absorbed
?
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Fong et al. 2013
GRB 130603B GRB 080503
Perley et al. 2009
X-ray Excesses in Kilonova Candidates
See also Zhang 2013, Gao et al. 2013
![Page 52: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/52.jpg)
Radio constraints on long-lived NS merger remnants(BDM & Bower 2013)
• Rotational energy
eventually transferred to ISM⇒ bright radio emission (cf. Gao+13)
• Observed 7 short GRBs with VLAon timescales ~1-3 years after burst
• NO DETECTIONS ⇒ rules outstable NS remnant in 2 GRBs withknown high ISM densities
• Additional JVLA observations nowmuch more constraining
• Upcoming radio surveys (e.g.ASKAP) will strongly constrainpopulation of stable NS mergerremnants ⇒ indirectly probes EoS
Frail et al. 2012
10-4 yr-1 gal-1
Rest-Frame Time Since GRB (years)
1.4
GH
z Lu
min
osity
(erg
s-1
)
Radio surveyconstraints
![Page 53: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/53.jpg)
Timeline of Binary NS Mergers1. Chirp enters LIGO Bandpass t (minus) ~ mins
2. Last Orbit, Plunge & Dynamical Ejecta t ~ ms
3. BH Formation ~ ms - ∞
4. Accretion of Remnant Disk, Jet Formation (GRB) ~ 0.1-1 s
5. He-Recombination + Disk Evaporation ~ 0.3-3 s⇒ outflow Ye depends on NS collapse time
6. R-Process in Merger Ejecta ~ few s
7. Jet from Magnetar (X-rays) ~ min (or longer)
8. Disk Wind Kilonova ⇒ prompt BH formation Ye < 0.25 (NIR, L ~ 1041 erg s-1) ~ week ⇒ delayed BH formation Ye > 0.3 (Optical, L ~ 1042 erg s-1) ~ day ⇒ stable magnetar (Optical, L ~ 1044 erg s-1) ~ day
9. Tidal Tail Kilonova (IR) ~ week
10. Ejecta ISM Interaction (Radio) ~ years
⇒ Much brighter if stable magnetar
![Page 54: The Central Engines of Short Duration Gamma-Ray … Berger, Wen-Fai Fong (Harvard), Tony Piro, Dan Perley (Caltech) Almudena Arcones, Gabriel Martinez-Pinedo (Darmstadt), Todd Thompson](https://reader036.vdocuments.us/reader036/viewer/2022070616/5d171fef88c993f36f8d3d20/html5/thumbnails/54.jpg)
Workshop: March 10 - April 17, 2014 Conference: March 24 - 28, 2014
http://indico.cern.ch/e/NS2014
• Equation of state of dense matter, including hyperon,kaon and quark degrees of freedom
• Neutrino emission and cooling of compact stars
• Constraints from EM observations
• Gravitational wave sources
• Models for Supernovae and for Gamma Ray Bursts
• Magnetars
organizers:Fiorella Burgio
Allessandro DragoIan Jones
Brian MetzgerPierre Pizzochero
Anna Watts
Registration Deadline: December 15, 2013