gamma-ray observation in space · synergy between x-ray and gamma-ray observation present and...
TRANSCRIPT
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T.Takahashi
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Gamma-ray Observation in SpaceSynergy between X-ray and Gamma-ray Observationpresent and future
Tadayuki Takahashi Institute of Space and Astronautical Science (ISAS)
Yasushi FukazawaHiroshima Univ.
Makoto TashiroSaitama Univ.
Astro-E2/Swift/Glast
Astro-E2/Glast
Astro-E2/Swift
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GLAST2006
INTEGRAL2002
ChandraNewton
AstroE II
Swift2003
AstroE22005
Compton-GRO Satellite
Astro-E22005
Gamma-ray Mission in 21st Century
AGILE2003
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(Makishima et al. 2002)
X-ray/Gamm-ray Observation is crucial
to access Black Hole
JetX-ray
Gamma-ray
Black Hole
・Hot plasmaHigh Temperature
electron/Ion
Non-Themal Emission from accelerated Particle
Non-Thermal Emission from the extremelyhigh density/temperature plasma
Hard X-ray & Gamma-ray
Toward the event horizon
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To Probe Obscured Black Hole
NGC4945 Done et al. 1996
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X-ray/Chandra Komossa et al., 2002
Binary BH in NGC 6240
Optical/HST Van der Marelet al.,2002
N
S
Source of Gravitational Wave?from presentation by G H i (2003)
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PKS0528+134
Mkn421
surprise!
Kubo et al. 1997
Gamma-ray Black Hole (Blazars)
The relativistic jet points close to the observer. The non-thermal emission is Doppler boosted and greatly enhanced.
• Synchrotron,peak at IR-X ray energies
• Inverse Compton, peak at GeV-TeV energies
from the same electron distribution
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Blazar Variability & Internal Shocks
4/25 4/26 4/27 4/28 4/29 4/30
Time (hours since April 23 1998 23:00 UT )
0 50 100 150
0.5-7.5 keV
• Rfo =0.7, Tchr =40 ks⇒ D 0 =1x1013 cm sG =0.015, G=15 (assumed)• Γ / σΓ =1,000
Simulation Observation
EUVE1keV6.3keV15keV
Lkin ~1,000 LjetTanihata, Takahashi, Kataoka et al. 2002,Iwamoto, Takahara et al. 2003from G. Madejski, 2001
Mrk421
Takahashi et al. 2000
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Particle Accelerator in SNRs (1)The remnant of SN 1006
CANGAROO TeV Gamma-ray
(Tanimori et al. 1998)
Power-law type spectrum= synchrotron radiation
Discovery of synchrotron X-ray emission by ASCA (Koyama et al. 1995)
X-ray image
I(ε) ∝ε−Γ
Photon indexΓ=3.0
hν synch = 5.3 E100TeV2 B10µG [keV]
Direct evidence of > 10 TeV particles
X-ray observation ⇒ highest energy electrons
X-ray spectrum
Log ε
(from presentationby Uchiyama 2003)
Bamba et al. 2003
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Particle Accelerator inSNRs (2)
AcceleratorTarget
Characteristic 1/εSpectrum(Uchiyama, Takahashiand Aharonian,2002)
TeVγ-ray
ASCA
Chandra
molecular cloud
Filament
Emission due to electron/proton interactionin the dense molecular cloud
GeV γ-ray
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Annihilation Fountain in the Center of Milky Way
511 keV
CGRO-OSSE
Purcell et al. 1977
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Deep Sky: Black holes are ubiquitous in the Universe
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Gamma-ray Burst
6 hours 48 hours
Afrerglow:X-ray Images from BeppoSaxBASTE
Optical discoveries of host galaxies and measurements of spectroscopic redshift distances
Gamma Ray bursts are occuring in distant (z = 1-3) galaxies
HST
Most powerful and relativistic phenomena known (1052-1054 ergs)
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Present and FutureX-ray/Gamma-ray Missions
I N T E G R A L
Milagro
AGASA, HiRes, A U G E R
Celeste, STACEE
Cangaroo3, VERITAS H E S SMAGIC
AstroE2
OSSECMPTL
HETE2
RXTE, BeppoSAX
Whipple,Cangaroo1/2CAT, HEGRA
EGRET G L A S T
SWIFT
Ene
rgy
in e
V
102
104
106
108
1010
1012
1014
2000 2004 2008 2012 2016
AGILE GeV
MeV
keV
TeV
>PeV
MAXIX M M AstroE2
C h a n d r a
NeXT (Japan)
Constellation X
>1016
Year of Operation Compiled by Kamae (2002)
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Electro-Magnetic Radiationand Electron Energy
keV MeV GeV TeV
GLAST(Bremsstrahlung)
Radio Synchrotron
X-ray Brems.X-ray Inv.Compton
GLAST(Inverse Compton)
X-ray Synch.
Electron Energy
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Integral Mission (2002-)Big Gamma-ray Mission After CGRO
(15 keV 10 MeV)Imaging (Coded Mask)High Energy ResolutionX-ray Detector (JEM-X)
from Integral Homepage
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High resolution Gamma-ray detector (SPI)
19 Cooled Ge detector (each 6x7 cm)FWHM : 2keV @ 1.3 MeV
from Integral Homepage
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Solar Flare Spectrum by SPI
from Integral Homepage
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(CdTe + CsI(Tl))7 keV @ 100 keV
16384 CdTe detectorstotal area 2620 cm2
with 4x4 mm2 x2mmt detector
IBIS
http://astro.estec.esa.nl/Integral/from Integral Homepage
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INTEGRAL Integral Science
osi
44Ti 26Al
1.5 MeV 1.8 MeV
Line Gamma-ray from Nuclear Decay
511 keV Annihilation line from our galaxy
by OSSE
44Ti and 26Al (and more)from past SN explosions Vela region
by Comptel
High Energy and Spatial Resolution
INTEGRAL SPI(Tobs = 106s)
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Galactic Plane ScanCen region with ISGR (CdTe Imager)
from Integral Homepage
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Swift Mission (2003- )• Multi-wavelength observatory
– Burst Alert Telescope (BAT): 10-150 keV
• detect ~ 300 gamma ray bursts per year• onboard computation of positions• arc-minute positional accuracy
– Dedicated telescopes for X-rays, UV, and optical afterglow follow up:
• 0.3-10 keV X-ray Telescope (XRT)• 170-650 nm UV/Optical Telescope (UVOT)• 0.3-2.5 arc-second locations• existing hardware from JET-X and XMM• determine redshifts from X-ray absorption,
lines, and Lyman-α cutoffRapid response satellite
20 - 70 sec to slew within FOV of BAT
autonomous operations factor 100 improved response timecontinue monitoring of fading afterglow
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BAT Imager on Swift•32768 CdZnTe detectors(4x4 mm2 x2mmt detector)• Japanese Contribution to Calibration/Software (ISAS/Saitama U./U. Tokyo)
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Multiwavelength Cascade of Images
Gamma Ray (arc-minute)
X-ray (2.5 arc-second)
UVOT (0.3 arc-second)
HST, Keck, etc.
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Swift Performance
GRB980228
• Location in host galaxies• Probe the surrounding environment• Use gamma-ray bursts as cosmological probes
Sensitivity
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AstroE2 Multi-band Mission
0.5~600100105,000Astro-E
0.3~121012010,000Newton
0.3~100.5120800Chandra
Erage(keV)Δθ
(arcsec)ΔE(e V)Fe 6.7KeV
S(cm2)
Five thin-foil mirrorsFour X-ray CCD cameras(XIS)Microcalorimeter array(XRS)
Non-imaging Hard X-ray detector
AstroE2
Launch 2005 Feb.
XRS
CCD(XIS)
HXD
• Recovery Mission of Astro-E• Launch in 2005• Design almost identical to Astro-E
ISAS
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Hard X-ray Detector (HXD)• Narrow FOV
by well type (phoswitch) active shield& passive fine collimator
(<100keV)• Wide energy band (10 – 600 keV)
w/ 64 Si-PIN (2mm thick) diodes• Background rejection
w/ LSI pulse shape discriminationanti-coincidence with 36 detector units
& onboard CPU softwareLow Background & High sensitivity are expected
passive fine collimator (FOVFWHM~30’)
BGO active shield/Well type collimator (FOV~4deg)
GSO detection crystal
Si-PIN diode
ISAS, U.Tokyo, Hiroshima, Saitama, Kanazawa, SLAC
1988-1992
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Astro-E2 HXD & Integral
HXD-II has much narrower FOV and thus Background is lower and the sensitivity is higher.
SIGMA
OSSE
SPI
JEM-X
IBISHXDTobs =105s
COMPTEL
Continuum Sensitivities for HXD and INTEGRAL
CGRO/INTEGRALTobs = 106s
Continuum Spectrum
Simultaneous observation with highly sensitiveX-ray instruments gives us very unique opportunities to study gamma-ray sources.
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High Resolution Detector (XRS) on AstroE2
kT (keV)
Direct measure of gas temperature
6 8 12eV
(Inoue, 2002)
Detection of a thermal Doppler width of an iron K-line:
for kT=10 keV, Eline=6.7 keV σL = 2.9eVand the intrinsic line width is 6.9 eV:
if we have 6 eV resolution…
200
150
100
50
0
Cou
nts
59105900589058805870Energy [eV]
FWHM: 5.93 ± 0.16 eV
GSFC
• Bulk motions of ICM in cluster mergers will be detected for the first time
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Glast Mission
•International Mission •Japanese Contribution (Hiroshima,ISAS, RIKEN, Titech)• Wide FOV, Survey Operatiom• 20MeV - 300 GeV• Large Area Silicon Strips.
GLAST Large Area Telescope (LAT)
Burst Monitor (GBM)
Utilize Pair-productionSLAC
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Tracker Module Mechanical Design
Carbon thermal panel
Bias supply
C-fiber face shee
Hex cell core
Al closeout
C-fiber face sheet
converter
4×4 array of Si-strip sensors (X)
Readout circuit 4×4 array of Si-strip sensors (Y)
16 Towers
15cm
by Hiroshima Univ.
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New approach GLAST will bring forth
- EGRET’s 3rd Catalog in 2 days -
100 sec
1 orbit**
1 day^̂
*zenith-pointed, ^“rocking” all-sky scan
All 3EG sources + ~ 80 new in 2 days
- GRB940217 (100sec)- PKS 1622-287 flare- 3C279 flare- Vela Pulsar
- Crab Pulsar- 3EG 2020+40 (SNR g Cygni?)
- 3EG 1835+59- 3C279 lowest 5s detection- 3EG 1911-2000 (AGN)- Mrk 421- Weakest 5s EGRET source
Time Variability Monitoring: Flares (Blazars, AGNs, Coronas), Precessions and Glitches (Pulsars), Lensing (AGNs)
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Sensitvity of GLAST
CygnusRegion
3C279
Geminga
Vela
Cosmic RayInteractionsWith ISM
LMC
PKS 0528+134
PKS 0208-512
Crab
PSR B1706-44
CGRO-EGRET (1991-2000)
GLAST
NASA
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Unidentified Source172 of the 271 sources in the EGRET 3rd catalog are “unidentified”
Cygnus region (15x15 deg)
EGRET source position error circles are ~0.5°, resulting in counterpart confusion.
GLAST will provide much more accurate positions, with ~30 arcsec -~5 arcmin localizations, depending on brightness.
From presentaion by S.Ritz, 20
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Bright
Faint10 keV 30 MeV
Integral IBIS2002-
Glast2002-
CGRO-EGRET1989-2000
CGRO-COMPTEL1989-2000 Integral SPIE
2002-
Integral JEM-X2002-
ASCA/Astro-E
subMeV/MeV Gamma
Energy
Hard X-rays
Future Perspectives
Sensitivity Gap
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Future Mission-- Focusing Hard X-ray Experiments --
ExtensibleOpticalBench
ISAS, JapanConstellation X
NASA
Focusing Telescope is not only for the equipment to take picturesbut also for the key to achieve high sensitivity.Because,a mirror concentrates the incoming flux onto a small spot of the detector, greatly reduce background.
ISAS’s “NeXT” mission
80 keV~800cm2 at 40keV
Key technology: Super Mirror & γ-ray Imager
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NeXT Mission
These sensitivities are calculated for the case of the propobased on a CdTe pixel detector (HXI detector team, 2003)
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Ein
E1
E2
electron
photon
θ
cosθ =1−mec
2
E1
+mec
2
E1 + E2
総重量1000 kg
COMPTEL(1989-2000)
Beyond COMPTEL
MEGA Mission (proposed by COMPTEL Team)
Compton-DominantRegion
COMPTEL has an effective area of ONLY 30̃40 cm
2
Weight 650kg
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Next generation Compton Telescope in Japan
• Semiconductor Multi Compton Telescope (SMCT) (ISAS) 25cm
80layers
Compact BUT Detection Efficiency at 1 MeVbecomes 10 times higher thanCOMPTEL (weight 1 ton) on CGRO
80 layers of 0.5 mm thickCdTe strip detectors625 cm2 ×4cmCdTe Detector:
with high Z semiconductor (CdTe)
ISAS/SLAC/Osaka U. Hiroshima U./ U.Tokyo
Takahashi et al. SPIE 200
• Compton telescope based on Micro Gas Pixel Chamber(Kyoto Univ.)
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Polarization• Polarization in X-ray/Gamma-rayis the only remaining parameter to be measured.• Expected from Jet Sources/Pulsars/Accretion Disk/GRB• Development of New and Sensitive Instruments are crucia
Gamma-rayby Newly Desined Gamma-ray Polarimeter(Kamae et al. 2003)
by Compton Telescope
(INTEGRAL, SMCT, MEGA…
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Summary• X-ray and Gamma-ray energy band in
space are very important window to study high energy particles (cosmic rays) in the universe
• By combining information from X-ray and Gamma-ray observations, we can deepen our understandings of “Accelerator” in the universe