Gamma Ray Bursts - NASA

35
Gamma Ray Bursts Neil Gehrels NASA-GSFC NAM - Leicester April 5, 2006 Cnts/s BAT XRT

Transcript of Gamma Ray Bursts - NASA

Page 1: Gamma Ray Bursts - NASA

Gamma Ray Bursts

Neil Gehrels

NASA-GSFC

NAM - Leicester

April 5, 2006C

nts/s

BAT

XRT

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GRB current understanding

Swift observatory

Short GRBs

Afterglow

Redshifts

OutlineOutline

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BeppoSAXX-ray afterglow

discovery1997

CGRO BATSESky distribution

1991-2000

GRB Backgr!ndGRB Backgr!nd

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GRB Backgr!nd cont.GRB Backgr!nd cont.

Short Long

Kouveliotou et al. 1993

hostgalaxy

GRB

GRB 990123 - HST

Typical distance (pre-Swift) z ~ 1

Huge explosions E ~ 1051 ergs

Signatures of black hole birth

Ultra-relativistic outflows (Γ ~ 100)

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GRB Backgr!nd cont.

Typical distance (pre-Swift) z ~ 1

Huge explosions E ~ 1051 ergs

Signatures of black hole birth

Ultra-relativistic outflows (Γ ~ 100)

Short Long

Kouveliotou et al.

hostgalaxy

GRB

GRB 990123 - HST

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Fireball Model ofFireball Model of GRBs GRBs

Shocks also accelerate protonsInteractions with photons ⇒ pions, muons, neutrinosNeutrinos expected 1014 - 1019 eV range

Meszaros & Rees

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BAT

XRT

Spacecraft

UVOT

BAT

UVOT

XRT

Swi# ObservatorySwi# Observatory

Burst Alert Telescope (BAT) - 32,000 CdZnTe detectors - 2 sr field of view

X-Ray Telescope (XRT) - CCD spectroscopy - Arcsec GRB positions

UV-Optical Telescope (UVOT) - Sub-arcsec position - 22 mag sensitivity

Spacecraft slews XRT &UVOT to GRB in <100 s

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November 20, 2004

Swift on rocket

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XRFShortGRB

XRF

ShortGRB

XRF

XRFXRF

XRF

XRF

ShortGRB

XRF

ShortGRB

ShortGRB

ShortGRB

ShortGRBXRF

XRFXRF

ShortGRB Short

GRB

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8 short GRBs with rapid arcsecpositions

Sho$ Sho$ GRBsGRBs

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GRB 050509B GRB 050724

• elliptical hosts• low SF rates• offset positions• redshifts z ~ 0.2>> inconsistent with collapsar model>> supportive of NS-NS model

2 Sho$2 Sho$ GRBs GRBs - 2 Elliptical Ho%s- 2 Elliptical Ho%s

BATXRT XRT

Chandra

35 kpc offset 4 kpc offset

Gehrels et al. 2005 Barthelmy et al. 2005

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GRB 050724GRB 050724

Host:- Elliptical- L = 1.7 L*- z = 0.258- SFR < 0.02 MO yr-1

BAT - 250 ms hard spike- 6x10-7 erg/cm2 fluence

Afterglow- bright afterglow with flares - detected by Chandra- optical & radio

Barthelmy et al. 2005

Evidence for NS-BH ?

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Fox et al. 2005

HETE-2 GRB 050709HST Image

Swift GRB 051221BAT Lightcurve

Parsons et al. 2005

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Sho$ GRB ObservationsSho$ GRB Observations

Name Redshift Afteglow Host Eiso(15-150keV) What might it be? (erg)___________________________________________________________________________

050202 - no slew - - -050509B 0.225 X Elliptical@ 1x1048 NS-NS merger050709* 0.161 X, O SF galaxy 6x1049 NS-NS merger050724 0.258 X, O, R Elliptical 3x1050 NS-NS / NS-BH merger050813 ? 1.8 X galaxy@ ? 2x1051 ? NS-NS merger050906 ? 0.03 - ? galaxy - ? minimal afterglow050925# - - in gal. plane - ? possible new SGR051105A - - - - ? minimal afterglow051210 ? 0.11 X ? cluster@ ? 2x1048 ? NS-NS merger051221 0.547 X, O, R SF galaxy 9x1050 -060121* - X - - -060313 - X, O ? cluster@ - ? NS-NS merger

* HETE GRB # soft spectrum@ galaxy in cluster

short GRBs

long GRBs

1055

1054

1048

1053

1052

1049

1050

1051

1047

10-2 10-1 100 101 102 103

T90 / (1+z) (s)

E iso

(er

g)

Swift GRBs

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GRB 050408 HETE-2

Jet BreaksJet Breaks

1

1

2

3

3

2

θ ~ Γ-1

Sari et al. 1999; Frail et al 2001

θ = 3.3 (tbreak/1day)3/8 ((1+z)/2)-3/8 (Eiso-γ/1053 ergs)-1/8 (ηγ/0.2) (n/0.1 cm-3)1/8

z = 1.24 Eiso = 1.3x1052 erg tbreak = 8x104 sec = 0.9 day

θ = 3.9 degrees

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Beaming for Sho$Beaming for Sho$ GRBs GRBs

Grupe, Burrows, et al.

Lack of jet break impliesθ > 25˚

Other hints of jet breaksgive θ ~ 10˚ - 20˚

Long bursts have θ ~5˚

Conclusion: θshort > θlong

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Sho$ GRB Summary Sho$ GRB Summary

Strong evidence that short GRBs associated with old stellar populations

Rapid fluctuations imply compact source origin.Energetics suggest collapse to BH

Could be NS-NS mergers. Could be accretion-induced collapse of NS.

If NS-NS, some systems may be exchange captures in globular clusters

Gravitational Waves:Assuming short GRBs are NS-NS mergersAssuming 30˚ beaming⇒ A-LIGO detection rate of ~100 yr-1

Thorne et al.

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GRB A#erglow GRB A#erglow

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A#erglow D&cove'es A#erglow D&cove'es

Eγ, iso (erg)

L x,10

(er

g s-1

)

Canonical Lightcurve

Shape

GRB 051001 - XRT

AfterglowFlare

GRB 050502B - XRT

GRB 050525AUVOT

Curves &Breaks

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Paul O’Brien / UL

BAT

XRT

Swi#Swi# Lightcurves Lightcurves - )e Movie- )e Movie

BAT

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GRB 050525a A#erglowGRB 050525a A#erglow

Blustin et al.

XRT

UVOT

break ?

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No prompt slew (tmoon constraint)3.6 dayslong11.3050416B

XRT in engineering mode at triggertime

14 hourslong4.40050528

79 sshort0.0721050906

No prompt slew (Earth limb constraint)3.6 hourslong3.01050911

100 secshort0.75050925

68 secshort0.2051105A

Did not trigger BAT (found in groundprocessing)

1.5 dayslong1.32051114

No prompt slew (moon constraint)2 dayslong2.4060102

CommentsTime toObservation

GRBType

BAT Fluence

(erg cm-2 )

Name

GRBs GRBs Wi*!t XRT DetectionWi*!t XRT Detection

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GRB 060218GRB 060218Really Nearby GRBReally Nearby GRB

(z=0.033) (z=0.033)

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GRB 060218GRB 060218

BAT SDSS UVOT

Super-long GRB - ~35 minutes BAT, XRT, UVOT during GRB VLA detection at 0.5 mJy z = 0.033 Eiso = few x 1049 erg cm-2

Supernova currently at peak SN Ib/c

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GRB 060218 cont.GRB 060218 cont.

XRT

BAT

Mirabal et al.

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Pian et al. 2006

3 GRB SNeSN 2006aj

SNe Ic

GRB 060218 SummaryGRB 060218 SummaryWolf-Rayet star progenitor

Low metallicity dwarf host

Soft spectrum (Epeak ~ 5 keV) withthermal component

Shock break-out from dense W-Rwind region may explain thermalemission

2 components-broad outflow disrupts star (SN)-narrow jet produces GRB

Do all GRBs have SNe or justnearby underluminous ones?

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HighHigh Red+i# GRBs Red+i# GRBs

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Redshift z= 6.29T90 = 225 secS (15-150 keV) = 5.4x10-6 erg cm-2

Eiso = 3.8x1053 erg

GRB 050904GRB 050904

Flux x100 of high-zluminous X-ray AGNCusumano et al. 2005

X-ray Afterglow

BATXRT- WTXRT- PC

flares

GRB 050904

Typical GRB

GRB 050904undilated by z+1

Prompt

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GRB 050904 Optical SpectroscopyGRB 050904 Optical Spectroscopy

Subaru Spectroscopy

Kawai et al. 2006

Ly break in the IR J=17.6 at 3.5 hours

Berger et al. 2006HST & SIRTF

z= 0 z ~ 1 z = 2.3

z = 6.3

Mgalaxy (mag)lo

g (m

etal

licity

)

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GRB Ho%sGRB Ho%s

• GRBs trace brightestregions in hosts

• Hosts are sub-luminousirregular galaxies

⇒Concentrated in regions ofmost massive stars

⇒Restricted to low metallicitygalaxies

Fruchter 2005

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Lines are models with GRBsproportional to SFR

0.1 1.0 10.0

Redshift (z)

0

5

10

Num

ber Pre-Swift

Swift

Average Redshift- Pre-Swift: z = 1.2- Swift: z = 2.7

GRB Redshift Distributions

Jacobsson et al. 2005

Swift GRBs Tracing SFR

HighHigh Red+i# GRBs Red+i# GRBs

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Tanvir (2005)

GalaxiesQuasarsGRBs

10

12

13

8

Dis

tanc

e (B

illio

n Li

ght Y

ears

)

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SGR 19,+14 Outbur%SGR 19,+14 Outbur%

March 29"storm"

35 seconds

Palmer et al.

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)e Future)e Future

Swift will be in orbit until >2012

ECLAIRS - Smal French-Chinese GRBmission (~2010?)

GLAST & AGILE - High energy (>100MeV) gamma-ray missions

Gravitational wave, neutrino & TeVgamma-ray observatories all searchingfor GRB signals

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GSFC

Swi# Team