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![Page 1: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/1.jpg)
Optical Emission Components of Gamma-Ray Burst Phenomenon
Enwei LiangGXU-NAOC Center for Astrophys. & Space Sci.
Co-authors: Liang Li (GXU), Shuangxi Yi (NJU), QingwenTang(GXU), Bing Zhang (UNLV)
Gamma Ray Bursts in the Era of Rapid Follow-up 18-22 June 2012, Liverpool, UK
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Based on following papers:1. Liang et al. 2010, Constraining Gamma-ray Burst Initial Lor
entz Factor with the Afterglow Onset Feature and Discovery of a Tight Γ0-E γ,iso Correlation 2010, ApJ, 725, 2209
2. Li et al. 2012, A Comprehensive Study of Gamma-Ray Burst Optical Emission: I. Flares and Early Shallow Decay Component, arXiv1203.2332
3. Liang et al. 2012 A Comprehensive Study of Gamma-Ray Burst Optical Emission: II. Afterglow Onset and Late Re-Brightening Components, 2012, in preparation
![Page 3: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/3.jpg)
Outlines Motivation Sample and a Synthetic Lightcurve of Optical Emis
sion Late Flares Implications for Global Evolution of
the GRB Central Engine Early Shallow Decay Segment Implications for E
nergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Implic
ations for the properties of GRB fireball and Environment
Summary
![Page 4: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/4.jpg)
Outlines Motivation Sample and a Synthetic Lightcurve of Optical EmisSample and a Synthetic Lightcurve of Optical Emis
sionsion Late Flares Late Flares Implications for Global Evolution of Implications for Global Evolution of
the GRB Central Enginethe GRB Central Engine Early Shallow Decay SegmentEarly Shallow Decay Segment Implications for E Implications for E
nergy Injection and the Nature of the GRB CEnergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Early Afterglow and Late-Rebrightening Implic Implic
ations for the properties of GRB fireball and Envirations for the properties of GRB fireball and Environment onment
Summary Summary
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Motivation Theoretical models predict
various emission components Mixing of different components cannot make sense for statistics.
Extract various Emission Components from the data by empirical fit for statistics, probing the properties of CE, GRB fireball, further theoretically modeling,….
How about the relations between X-ray and optical emission?
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Outlines Motivation Sample and a Synthetic Lightcurve of Optical Emis
sion Late Flares Late Flares Implications for Global Evolution of Implications for Global Evolution of
the GRB Central Enginethe GRB Central Engine Early Shallow Decay SegmentEarly Shallow Decay Segment Implications for E Implications for E
nergy Injection and the Nature of the GRB CEnergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Early Afterglow and Late-Rebrightening Implic Implic
ations for the properties of GRB fireball and Envirations for the properties of GRB fireball and Environment onment
Summary Summary
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1. Sample and a Synthetic Lightcurve1. Sample and a Synthetic Lightcurve
Sample: Full sample of GRBs with optical afterglow detection from 1
997-2012 230 GRBs included 146 well-sampled LCs for our analysis. Most of them were o
bserved in the R-band. Corrections:
k-correction, Galactic extinction (No correction for host galaxy extinction
)
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Component Decomposing with Empirical Fits
(I)(I)Single PLSingle PL
(II) Smooth (II) Smooth BKPL:BKPL:
(III) Triple PL(III) Triple PLStrategy of out LC fititng: Strategy of out LC fititng:
Adding components to improve the LC fits. Criterion: Adding components to improve the LC fits. Criterion:
(1)Reduced χ(1)Reduced χ22~ 1 and adding one more component does not ~ 1 and adding one more component does not significantly improve the fits significantly improve the fits Accepted; Accepted;
(2) Reduced χ(2) Reduced χ22 is much larger than 1, but add one more com is much larger than 1, but add one more component cannot significantly improve the fit ponent cannot significantly improve the fit Accepted Accepted
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Examples of our fits with extremely small or large reduced χχ2
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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2. 2. A synthesis Lightcurves of Optical EmiA synthesis Lightcurves of Optical Emission from GRB phenomenonssion from GRB phenomenon
Zhang et al. Zhang et al. 20062006
XRT LCsXRT LCs
Shallow decay: Shallow decay: α<3β/2α<3β/2
Jet-like decay: Jet-like decay: α>2β+1 α>2β+1
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Outlines Motivation Sample and a Synthetic Lightcurve of Optical Emis
sion Late Flares Implications for Global Evolution of
the GRB Central Engine Early Shallow Decay SegmentEarly Shallow Decay Segment Implications for E Implications for E
nergy Injection and the Nature of the GRB CEnergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Early Afterglow and Late-Rebrightening Implic Implic
ations for the properties of GRB fireball and Envirations for the properties of GRB fireball and Environment onment
Summary Summary
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3. FlaresDefinition: rising and decaying slopes both are steeper than 2.
Detection Rate: 19/146 Much lower than X-ray flares
No associated X-ray flares were detected for most GRBs, except for GRBs 060926, 070311, and 071010A in our sample.
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Flares: Temporal Evolution
Width as a function of tp: shWidth as a function of tp: sharing the same relation with aring the same relation with single pulse GRBs and X-ray single pulse GRBs and X-ray flaresflares
Anti-correlation between LAnti-correlation between Lp and tp p and tp Being similar to Being similar to that of the X-ray flaresthat of the X-ray flares
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
Peaking later tends to be wider and dimmer
15.015.1 pp tL
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Flares: Temporal Evolution
Width as a function of tp: shWidth as a function of tp: sharing the same relation with aring the same relation with single pulse GRBs and X-ray single pulse GRBs and X-ray flaresflares
Anti-correlation between LAnti-correlation between Lp and tp p and tp Being similar to Being similar to that of the X-ray flaresthat of the X-ray flares
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
Peaking later tends to be wider and dimmer
•Prompt gamma-ray Early X-ray flares Late optical flares: Global evolution of the GRB central engine activity• The Temporal Evolution of Lp is consistent with the evolution of the accretion rate predicted by some models (~ t-1.2-1.25 Cannizzo et al. 1990, Frank et al. 2002 )
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Outlines Motivation Sample and a Synthetic Lightcurve of Optical Emis
sion Late Flares Implications for Global Evolution of
the GRB Central Engine Early Shallow Decay Segment Implications for E
nergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Early Afterglow and Late-Rebrightening Implic Implic
ations for the properties of GRB fireball and Envirations for the properties of GRB fireball and Environment onment
Summary Summary
![Page 16: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/16.jpg)
4. Shallow decay segment
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
Definition: α<3β/2 α<3β/2 ( ( υυmm<υ<υOO<υ<υcc ))
Detection Rate: 42/146 , Comparable to that in the X-ray band.
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Decay slopes
The decay slope of about 1/3 of the shallow decay segments transit to even steeper than -2.
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Break time and Break Luminosity
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
•tb is achromatic, but tentative correlated.
Typical break ~ 104 s
76.0 bb tL
X-rayX-ray
Opt.Opt.
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Break time and Break Luminosity
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
•tb is achromatic, but tentative correlated.
Typical break ~ 104 s
76.0 bb tL
X-rayX-ray
Opt.Opt.
Note: Only a small fraction of GRBs have a break in both the optical and X-ray bands! (18/146 for our sample)!
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For a BH-torus system: For a BH-torus system:
The injection wind may bThe injection wind may be driven by neutrino annihile driven by neutrino annihilation or the Blandford-Znajeation or the Blandford-Znajek mechanism: k mechanism:
(Kumar et al. 200(Kumar et al. 2008)8)
For a spinning down magnetFor a spinning down magnetar ar
q would be 0 or 2q would be 0 or 2
Can the shallow decay segment be a probe for the nature of GRB central engine?
qtLL 0
3.0 tM f
If it is due to long-If it is due to long-lasting energy lasting energy injection, injection,
Li, Liang et al. 2012, ApJ, sub. (arXiv1203.2332)
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Outlines Motivation Sample and a Synthetic Lightcurve of Optical Emis
sion Late Flares Implications for Global Evolution of
the GRB Central Engine Early Shallow Decay Segment Implications for E
nergy Injection and the Nature of the GRB CE Early Afterglow and Late-Rebrightening Implic
ations for the properties of GRB fireball and Environment
Summary Summary
![Page 22: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/22.jpg)
5. Afterglow Onset and Late Re-brightening
(1) Detection rate: 42/1(1) Detection rate: 42/146 (2)Smooth, less of fl46 (2)Smooth, less of flaresares
(3)No Association with (3)No Association with X-rays for most GRBsX-rays for most GRBs
Liang et al. 2010, ApJLiang et al. 2010, ApJ
(1) Detection rate: (1) Detection rate: 30/14630/146
(2)Similar to the (2)Similar to the onset humpsonset humps
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More Examples……
Liang et al. 2010, Liang et al. 2010, ApJ ApJ
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More Examples of late rebrightening
Separation of the humps are getting Separation of the humps are getting largerlarger
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Distributions of the Slopes
Liang, Li, Gao, et al. 2012 , in prep.
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Distribution of the afterglow peak time
Liang, Li, Gao, et al. 2012 , in prep.
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Temporal Evolution
Width vs peak time Lp vs EisoLp vs peak time
RB
RB
RBOnset Onset
Onset
Liang, Li, Gao, et al. 2012 , in prep.
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Relation between Afterglow and Eiso
Liang et al. 2010, Liang et al. 2010, ApJ ApJ
Larger Eiso Larger Eiso Earlier & brighter onset bump Earlier & brighter onset bump
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Initial Lorentz Factors and its tight Relation to Eiso
(Sari & Piran 19(Sari & Piran 1999)99)
Liang et al. 2010, Liang et al. 2010, ApJ ApJ
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Testing GRB environment with the afterglow onset and late RB humps
•Using the onset bump, we infer that the medium profile surrounding GRBs are described as
K=0.2~ 1.5, with a typical value of 0.8
Liang, Li, Gao, et al. 2012 , in prep.
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Future…
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GRB observation strategyGRB observation strategy
GroundGround
SpaceSpace
GWACGWAC
GFTs GFTs (g, r, i, J, H)(g, r, i, J, H)
TT00 +1 min +1 min
1-2 m robotic telescopes1-2 m robotic telescopes
GRB trigger provided by GRB trigger provided by ECLAIRsECLAIRs at time T at time T00
VTVT (V & R band photometry) (V & R band photometry)MXTMXT (Soft X-ray photometry) (Soft X-ray photometry)
TT00 + 5 min + 5 min
Multi messenger follow-upMulti messenger follow-up
60-cm 60-cm RobotiRobotic Telesc Teles
co co
From JianyanFrom Jianyan
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Multi-wavelength capabilities of SVOM Multi-wavelength capabilities of SVOM
102 103 104 105101-5 0
1022
1020
1016
1018
1014
1015
1014
Time (s)
Log. scale
Time (m)
Lin. scale
Fre
qu
ency
(H
z)F
req
uen
cy (
Hz)
Space
Ground
Slew
GRM
ECLAIRs MXT
VT
GWAC
F-GFT
C-GFT
60-cm 60-cm RobotiRobotic Telesc Teles
co co
From JianyanFrom Jianyan
![Page 34: Optical Emission Components of Gamma-Ray Burst Phenomenon Enwei Liang GXU-NAOC Center for Astrophys. & Space Sci. Co-authors: Liang Li (GXU), Shuangxi.](https://reader034.fdocuments.us/reader034/viewer/2022051517/56649cff5503460f949d10bc/html5/thumbnails/34.jpg)
Summary Long-lasting internal plateau, flare, and re-brightening are reveal
ed from current sample. The detection rate of optical flares are much lower than X-ray flar
es. The global evolution of the prompt gamma-ray, early X-ray flares, and late optical flares may signal global evolution of the GRB central engine activity. The Temporal Evolution of Lp is consistent with the evolution of the accretion rate predicted by some models.
The Detection rate of the shallow decay segment is comparable to X-rays. They may be a probe for the nature of GRB central engine.
A tight correlation between the initial Lorentz factor and Eiso is discovered. Smooth re-brightening is different from the flares. They may be from a distinct jet component. We infer the burst environment with the afterglow onset and late rebrightening and found that the density profile n~ r-0.8.
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Thanks