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Transcript of Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST...
![Page 1: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/1.jpg)
Gamma-Ray Burst (GRB) Science
with LST
Kunihito Ioka (KEK)on behalf of the GRB
subtask
CTA LST meeting 2010@RAL
![Page 2: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/2.jpg)
• GRB science with LST– Lower limit on the bulk Lorentz factor
• G>1000 is important, usually not exp cutoff, not necessarily the same region
– Emission mechanism: afterglow/prompt? Lepton(syn?/IC?)/hadron?• Spec: max synchro, IC component, Tempral: time-resolved• Long obs: early afterglow, Early obs: GeV onset delay (w/ precursor)
– Probing EBL, High-z: LIV? Axion?, First star, ISM B– LIV (with CTA only)
• Best scenario: Energy is dominated by TeV, no cutoffLorentz factor>10000, Violate EBL + LIV! + ICECUBE&GW!
![Page 3: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/3.jpg)
GRB Subtask
[email protected]@[email protected]
inaugurated Mar. 18, 2010
Ryde, FelixTam, P. H. ThomasTeshima, MasahiroToma, KenjiTorres, DiegoWagner, StefanWijers, RalphYamazaki, RyoZech, Andreas
Asano, KatsuakiFalcone, AbeGranot, Jonathan (Yoni)Hinton, JimHorns, DieterInoue, SusumuInoue, YoshiyukiIoka, KunihitoKakuwa, JunLamanna, GiovanniMarkoff, SeraMurase, KohtaO’Brien, PaulRaue, Martin
You are welcome to join us
Red: Leaders
![Page 4: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/4.jpg)
GRB: Brightest Explosion
= =
Sun~1033g
GRB~1052ergAtomic bomb
In ~sec, GRB release energy Sun emit over lifetime
GRB is the most luminous object
E=mc2 (by Einstein)
~1kg
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GRB in a Nutshell
Photo-sphere
InternalShock
ExternalShock
Time
Flux
~2-100s~0.01-2s
Relativistic JetG>100
ISM
~2-3/day@CosmologicalLong: Massive Stellar
Collapse to BH/NSShort: NS-NS/BH merger?
Magnetar? Long GRB?
Ekin⇒Eg
AfterglowPrompt
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GRB Spectrum
• Band spectrum
MeV
Epeak
GeV TeVkeV
nFn
n
∝n∝n-0.5
CTA
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Fermi Revolution~30 GeV g from GRBs ⇒
Guaranteed source for CTA
CTA
GRB 090510
Abdo+ 09
GeVMeVkeV
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Fermi GRB Features1. Extra spectral
component2. Temporally
Extended Emission
t−1.2±0.2
GRB 090510
up to >1000sec(But minor; majority is Band)
GRB080916CkeV MeV
GeV
![Page 9: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/9.jpg)
Pre-Fermi Era
EGRET• GRB940217 (Hurley+94)
– 18GeV to 90min
• GRB941017 (Gonzalez+03)
– Temporary distinct HE
AGILE• GRB080514B (Giuliani+08)
– Long-lived HE
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New Features
MeV
GeV
3. GeV onset delay
~1 sec
4. Photosphere-like
GRB 090902B
Abdo+ 09
~ Black Body(But minor)
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Detections as of 090904Detections as of 090904
GRBAngle from LAT
Duration(or class)
# of events> 100 MeV
# of events > 1 GeV
Delayed HE
onset
Long-lived HE
emission
Extra spectral comp.
Highest photon Energy
Redshift
080825C ~ 60° long ~ 10 0 ? ✔ X ~ 600 MeV
080916C 49° long 145 14 ✔ ✔ ? ~ 13.2 GeV ~ 4.35
081024B 21° short ~ 10 2 ✔ ✔ ? 3 GeV
081215A ~ 86° long — — — — -- —
090217 ~ 34° long ~ 10 0 X X X ~ 1 GeV
090323 ~ 55° long ~ 20 > 0 ? ✔ ? 3.57
090328 ~ 64° long ~ 20 > 0 ? ✔ ? 0.736
090510 ~ 14° short > 150 > 20 ✔ ✔ ✔ ~ 31 GeV 0.903
090626 ~ 15° long ~ 20 > 0 ? ✔ ?
090902B 51° long > 200 > 30 ✔ ✔ ✔ ~ 33 GeV 1.822
090926 ~ 52° long > 150 > 50 ✔ ✔ ✔ ~ 20 GeV 2.1062
091003A ~ 13° long ~ 20 > 0 ? ? ? 0.8969
091031 ~ 22° long ~ 20 > 0 ? ? ? ~ 1.2 GeV
100116A ~ 29° long ~ 10 3 ? ? ? ~ 2.2 GeV11 ©Ohno
~18 LAT+GMB (as of Jul 2010): No HE cutoff
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Exception
Spectral break @~1.4GeVG~200-700 if break is due to gg
10 102 103 104 105 106
Eg (keV)
GRB 090926A
Abdo+ 10
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Implication of LAT RateComparable to estimates based on extrapolatedBATSE GRBsno HE excess nor deficit(But,D. Kocevski@GRB2010)Band is OKExtra com.is rareBand+ 09
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MAGIC
Aleksic+ 10
Albert+ 06
MAGIC is consistent with the Band extrapolation
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LST sensitivity
Konrad Bernlöhr@Zeuthen10
Low energy(<200GeV)sensitivity is determinedby LST
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More g than Fermi Huge Effective Area– Fermi ~1m2 @>10GeV– CTA ~104m2 @30GeV
Expected # of g– (0.1-1)g x (104m2/1m2)
~ 103-104 g per GRB!: Great Advantage of CTA
~Background (but >30s CL)~10kHz data taking is necessary
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Extragalactic Background Light + Sensitivity– gGRB(100GeV) + gEBL(10eV) → e+ + e-
Energy ThresholdSe
nsiti
vity
[a
rbitr
ary]
Signal(Schematic)
Low Energy Sensitivity is
CRUCIAL
S. Inoue’s talk in this CTA meeting
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Rough Event Rate
Fermi LAT(GeV)/GBM(MeV) ~ 0.1– ~1000/yr x (LAT/GBM) ~ 100/yr
(Conservative)
1. GRB in the FOV ~100/yr x (Duty 0.1) x (FOV 5deg2) ~
0.03/yr2. Follow-up– Extended GeV emission lasts for
>1000 sec– ~20 sec slews are enough
~100/yr x (Duty 0.1) x (Zenith 0.1) ~
1/yr
GRB subtask (J. Kakuwa) is refining the estimate
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Alert for Follow-up
Swiftup to ~2015?
SVOM~2015-?(approved)
JANUS~2016-?
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Upcoming New WindowsHigh Energy n Gravitational Wave
IceCube, KM3Net
LIGO, Virgo, GEO, LCGT, AIGO, LISA, DECIGO/BBO
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GRB Science with CTA
1. TeV calorimetry2. Lower limit on the bulk Lorentz
factor3. Emission mechanism– Site? Leptonic(syn?/IC?)/Hadronic?
4. Cosmology– Probing EBL, B
5. Lorentz Invariance Violation (w/ CTA only)
6. …
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1. TeV Calorimetry
nFn
Energetics may be determined by TeV gSh
ort G
RB
Abdo+ 10
IC/Syn~ee/eB>1
E>1052erg⇒ NS origin
![Page 23: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/23.jpg)
2. Lower limit on bulk G
gg→e+e- (eth~MeV)– R~cDt ⇒ t~sTNg/4pR2≫1 (g-ray cannot
escape) Relativistic– R~G2cDt– Blueshift– t~G2b-2~G-6
G>103!v>0.999999×c
Gmin
RedshiftBut see also Li 08, Granot+08, Bosnjak+09, Aoi+KI 10, Zou+10
![Page 24: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/24.jpg)
Conventional Gmax
Fireball expands by radiation pressure
In principle, Gmax ~ Energy / Mass
Mass↓Gmax↑… However,
⇒ Transparent before G~Gmax
Paczynski 86Goodman 86Shemi & Piran 90Meszaros & Rees
Matter
Radiationescapes
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gg→e+e- Annhilation Break
Most likely Break (not Cutoff)
Aoi+ 10, Li 08, Granot+08, Bosnjak+09
Time/Spaceintegration
smearsthe cutoff
High-statisticaldata or
Time-resolvedspectrum is important
![Page 26: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/26.jpg)
3. Emission Mechanism
Photo-sphere
InternalShock
ExternalShock
Time
Flux
~2-100s~0.01-2s
Relativistic JetG>100
ISM
Ekin⇒Eg
AfterglowPrompt
Site Mechanism– Syn? BB? Hadronic?
Composition– p? Poynting? g?
Fe?
![Page 27: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/27.jpg)
GeV Models• External shock – long-lived, but not
variable– Synchrotron (adiabatic/radiative shock)– SSC– External Compton of prompt g
• Internal shock– Synchrotron (peak at MeV) – not extra comp.– SSC – no low energy excess– Hadronic – proton luminosity is too large– External Compton of cocoon/photospheric g
– May need fine tuning– Synchrotron (peak at GeV-TeV) w/ High G
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€
νγγ ~ 20 GeV Γ
103
⎛
⎝ ⎜
⎞
⎠ ⎟
2+2β
β −1
gg→e+e- annhilation break
IC component Max. Synchrotron Energy (tacc=tcool)
Max. Synchrotron Energy (tacc=tdyn)
Possible TeV Features
€
νmaxcool =
mec2
αΓ ~ 500 GeV
Γ
104
⎛
⎝ ⎜
⎞
⎠ ⎟
€
νmaxdyn ~ 1 GeV
Γ
6 ×104
⎛
⎝ ⎜
⎞
⎠ ⎟−6
KI 10
How to separatethese from EBL abs.?
![Page 29: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/29.jpg)
EBL Y. Inoue+ 10
EBL has a large uncertaintyProbe of early star/galaxy formation
GRB 090423@ z~8.2
![Page 30: Gamma-Ray Burst (GRB) Science with LST Kunihito Ioka (KEK) on behalf of the GRB subtask CTA LST meeting 2010@RAL.](https://reader030.fdocuments.us/reader030/viewer/2022033100/56649cba5503460f94981f2b/html5/thumbnails/30.jpg)
Intergalactic B
z=10B=10-15G
Proga 95Takahashi+ 10
TeV gOpt-UV
e±CMB
MeV g
DelayB
GeV g
Delay time⇒ B
But, could becontaminatedby afterglow
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LIV
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Summary
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Rondo+ arXiv:0907.0626
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~18 LAT+GMB GRBs (as of Jul 2010)No HE cutoff within the sensitivity
Zhang+ 10
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090902B
Abdo+ 09