Download - HETE history
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HETE-2 (High Energy Transient Explorer)
a small satellite for studying the cosmic gamma-ray bursts
and beyond ….
Atsumasa Yoshida (RIKEN)
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HETE history
1983— recommended in Santa Cruz meeting Feb 1991— official start of HETE US - Japan - France collaboration multiwavelength study of GRB in UV, X-ray and gamma-ray real-time localization and rapid notification
Nov 1996— HETE-1 launch: lost in failure of 3rd stage separation
Feb 1997— Discovery of GRB afterglow HETE concept proven, (but by different mission)
Jul 1997— HETE-2 started UV camera replaced by Soft X-ray Camera in HETE-2
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HETE-1 mounted on the Pegasus rocket. The small red object immediately to the left of the solar panel is a set of pyrotechnic bolt cutters, which releases the satellite from the third stage. The second and third stages of the rocket can be seen.
HETE-1
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HETE-1
HETE-1 inside the DPAF (Dual Payload Attachment Fitting) can. This structure protects HETE-1 while SAC-B is deployed.
3rd stage + HETE + SAC-B attached.The third stage is the short, black unit behind the DPAF can (along with the instrumentation ring and RCS systems ring), attached to the white second stage. This assembly is still circling the earth as one unit, after failure of the 3rd stage pyrotechnics to release both satellites.
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HETE-1 Launch in November 1996 ... and Lost
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HETE-2 Instruments
Optical Camera
Soft X-ray Camera
Wide-field X-ray Monitor
French Gamma-rayTelescope
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The HETE Mission
Prime objective: multiwavelength study of gamma ray bursts (GRBs) with soft/medium X-ray, and gamma ray instruments
Unique feature: capability to localize bursts with several arcsecond accuracy, in near real-time aboard the spacecraft
GRB positions transmitted to the global network of primary and secondary ground stations, enabling sensitive follow-up studies
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Primary Science Goals: GRBs
provide accurate postions (±10 arcsec to ±10 arcmin) for ~30 bursts in real time each year.
factor of ~4 more sensitive than the BATSE SDs for low energy spectral features and will provide ~25 GRBs per year on which high-quality spectral studies can be performed.
The 2-25 keV and 3-400 keV sensitivities of the X-ray and gamma ray instruments: effective for studying cyclotron lines and spectra of GRBs at low energies.
~7.5 times more sensitive than BATSE to bursts from Soft Gamma Ray repeaters: event rate ~ 55 times higher than BATSE.
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Secondary Science Goals
detect as many as 500-1000 X-ray bursts per year. monitor the evolution of X-ray bursts and X-ray
transients in the FOV of the X-ray detector. discover and study X-ray pulsars for ~2 month
intervals. discover and study black hole transients .
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Spacecraft Specification
Mass: 126 kg. Envelope: Fits within cylinder 89cm x 66 cm dia. Desired orbit: 600 km circular, 0 degree inclination Operating life: 6 months, nothing to preclude 2+ years Attitude: Sun pointing. Momentum bias. Attitude controlled to
+/- 2 degrees Data processing: Multi-processor, 80 VAX MIPS Data Buffering: 96 MBytes of EDAC mass memory Downlink: 250 kbits/sec data rate with overall bit error rate <2e-8 f
rom data storage to ground archive. Uplink: 31.25 kbits/sec data rate, overall bit error rate < 1e-8 Radio Frequencies: S-band uplink (2.092 GHz) and
downlink (2.272 GHz) for primary groundstation(s),
VHF downlink only (137.9622 MHz) for secondary stations.
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FREnch GAmma-ray TElescope(FREGATE)
Built by CESR (France) Instrument type NaI(TI);cleaved Energy Range 6 keV to > 1 MeV Timing Resolution 4 ms Spectral Resolution ~40% @ 6 keV
~7% @ 662 keV Effective Area 120 cm2
Sensitivity (10 ) 3x10–8 erg cm–2 s–1 over 8 keV—1 MeV
Field of View ~2 sr
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Wide-field X-ray Monitor (WXM)
Built by RIKEN and Los Alamos National Laboratory Instrument type Coded Mask with
Position Sensitive Proportional Counter Energy Range 2 to 25 keV Timing Resolution 1 ms Spectral Resolution ~15% @ 6 keV Detector Quantum Efficiency 90% @ 5 keV Effective Area ~200 cm2 for each of two units Sensitivity (10 ) ~8x10–9 erg cm–2 s–1
over the 2-10 keV range Field of View ~2 sr (total for 4 units) Angular resolution (1 ) ±6 arcmin
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WXM
Two-layered multi-wire proportional counter
Be window 10mcarbon wire Gas mixture: Xe (97%)
+CO2 (3%) Gas pressure 1.4atm
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GRB localization with1-D position sensitive detectors
}coded mask
1-dim. PC
mask pattern (top view)
shift pattern A
shift pattern B
shift pattern C
WXM (side view)
WXM localizes GRB's by measuring the mask pattern displacement for two orthogonal directions.
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Soft X-ray Camera (SXC)
Built by MIT CSR Instrument type 4 CCD20 Detectors, 2 optical CCD22 Camera dimensions 10cmx10cmx17.5cm Energy Range 500 eV to 14 keV Timing Resolution ~1 s Spectral Resolution 46 eV @ 525 eV,
129 eV @ 5.9 keV Detector Quantum Efficiency 93% @ 5 keV,
>20% (0.5-14 keV) Effective Area 6.1x6.1 cm2 (each of 2 units) Burst Sensitivity (4 ) 0.47 cts cm–2 s–1
Steady source Sensitivity (4 ) ~700 mCrab x t –1/2
Field of View 0.91 sr Focal Plane scale 33" per CCD pixel Loaclization Precision Faint Burst, 5 - 15",
Bright burst, 22 , 3" (1 Crab; 10s)
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HETE2 Operation Network
Ground-based Observatory (Optical, Radio, γ -ray )
HETE-2
RIKEN
Primary Ground Station
SecondaryGroundStationInternet
Data & Command
GRB positioninformation
Gamma Ray Burst
MIT
VHF
S band
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Secondary Ground Station Network
* Primary Ground Station
23 4
56
7
8
9
10
11 1
1 Kwajalein * 167.7 E 8.7 N 2 Christmas Island 157.1 W 1.9 N 3 Hiva Oa (French Polynesia) 139.0 W 9.8 S 4 Galapagos Island (Ecuador) 91.1 W 0.7 S 5 Cayenne (French Guiana) * 51.9 W 4.9 N 6 Natal (Brazil) 35.1 W 5.5 S 7 Accra (Ghana) 0.2 W 5.6 N 8 Malindi (Kenya) 40.2 E 3.0 S 9 Male (Maldives) 73.7 E 3.6 N 10 Singapore * 103.8 E 1.3 N 11 Koror (Palau) 134.5 E 7.3 N
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Vibration Test
Lincoln Lab - MITAugust 1999
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Thermal Vacuum Test
Lincoln Lab - MITAugust-September 1999
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Primary Ground Station in Singapore
National University of Singapore
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Launch in January 2000
The HETE-2 is scheduled to be launched in January 2000 from Kwajalein, Republic of the Marshall Islands.
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ROTSERobotic Optical Transient Search Experiment
OPTICSCanon 200 mm focal length, f/1.8, telephoto lenses in FD mounts
IMAGERApogee Instruments AP-10 CCD cameras with Thomson 2048 x 2048 14 micron imagers.Estimated readout noise: 25 e- at 1.0 Megapixels/sec.
University of Michigan. Los Alamos National LaboratoryLawrence Livermore National Laboratory
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Optical Flash! Up to 9 mag
UTC exposure m_v
9:47:18.3 5 secs. 11.829:47:43.5 5 secs. 8.959:47:08.8 5 secs. 10.089:51:37.5 75 secs. 13.229:54:22.8 75 secs. 14.009:57:08.1 75 secs. 14.53
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ROTSE(Optical)
BATSE(gamma-ray)
GRB 990123: Optical Transient
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ROTSE-II
ROTSE-II is a set of twin 0.45 meter aperture, f/1.9 telescopes to be operated in stereo mode.
Apogee Instruments AP-10 CCD cameras with Thomson 2048 x 2048 14 micron imagers.Estimated readout noise: 25 e- at 1.0 Megapixels/second.
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LOTIS Livermore Optical Transient Imaging System
2 x 2 array of Canon EF 200 mm f/1.8L telephoto lenses w/ Loral 442A 2k x 2k CCDs as the imaging sensors.
Each focal plane area of 3.1 cm x 3.1 cm --- a field-of-view for each camera of 8.8° x 8.8°.
The total field-of-view for the telescope array (allowing for overlap) is therefore 17.4° x 17.4°.
The CCD pixel size of 15 μm x 15 μm results in a pixel resolution of 15 arcsec.
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Super-LOTIS
Telescope: Boller & Chivens 0.6 meter f/3.5 reflector w/ computer controllable motor drive.
Imager: a Loral 442A 2048 x 2048 CCD (15 x 15 micron pixels) with LLNL built readout electronics. The CCD is cooled with thermoelectric cooler (to -30 degrees C).
Field-of-View: 0.84 x 0.84 degree field-of-view (1.5 arcsec/pixel).
Resolution - < 1.5 arcsec Sensitivity - V ~ 19 (10 s), V ~ 21 (6
0 s) at -30 deg C Slew Speed - 5 deg/s
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RIBOTSRIken - Bisei Optical Transient Seeker
望遠鏡 LX200-30 シュミットカセグレン 口 径 300mm 焦点距離 1000mm (0.33 倍 RD 使用 ) 視 野 47.2 ‘X 31.4‘ 導入速度 秒速 6° 冷却CCD ST8E (KAF1600E) 画素数 1530x1020 (160 万画素 ) 2 × 2 : 765 × 510 角度分解能
3.7“ 3 × 3 : 510 × 340 角度分解能
5.6“ 波長帯 350 ~ 925nm (QE > 20%) フィルターなし
RIBOTS Specification
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Swift Catching Gamma Ray Bursts on the Fly
Multiwavelength gamma ray burst observatory
Science Determine origin of GRBs Use GRBs to probe the early
Universe
Three instruments Gamma-ray camera X-ray Telescope UV and Optical Telescope
Rapidly re-pointing “swift” spacecraft
20-70 s response
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Swift Mission Features
Rapid response satellite
20 - 70 sec to slew within FOV of BAT
autonomous operations factor 100 improved response time continue monitoring of fading afterglow
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 opticalafterglow 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- cutoff
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Swift Instrumentation
Real time gamma ray burst positions
half coded FOV 2 steradians
5200 cm2 CdZnTe pixel array
10-150 keV band
based on Integral Imager design
5 times more sensitive than BATSE
~ 1 burst per day detected
(depends of logN-logS extrapolation)
angular resolution of 22 arcmin giving positions of 1-4 arcmin
onboard processing to provide prompt arc-minute position to satellite ACS and to the ground
Burst Alert Telescope (BAT)
BAT CdZnTe detector module
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Swift mission summary
PI: N. Gehrels (GSFC) Narrow Field Instruments - Penn State lead
• X-ray Telescope & Focal Plane (XRT) - Penn State/Leicester/Brera • UV/Optical Telescope (UVOT) - MSSL/Penn State/UCSB
Burst Alert Telescope (BAT) - GSFC lead• Camera and mask - GSFC• Onboard processing - Los Alamos
LEO orbit, 600 km circular 19 degree inclination Launch date 2003 Three-year mission operation life Orbit stable for 5+ years without propulsion
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Space Missions Capable of Localizing Gamma-Ray Bursts
Mission loc/yr accuracy delay operating period
BeppoSAX 10 1—10 arcmin hours present — 2001?
CGRO BATSE 300 >4° 5 sec present — 2002?100 >1.6° 15 min
Interplanetary 70 5’x 10° ~1 day present —2001?network (IPN ) 1’x 20’
RXTE ASM 4 10 arcmin hours present — 2002?
HETE-2 WXM 30 10 arcmin ~10 sec 2000 —2001 SXC 16 10 arcsec
INTEGRAL IBIS 20 arcminutes ~10 sec 2001—2003
Swift BAT 300 1—4 arcmin 12 seconds 2003(2004)—2010 XRT ~arcsec 50—70 sec UVOT 0.3 arcsec 200 sec
GLAST (>100 MeV) 50 10 arcmin 2005— (GBM) (200) (arcmin-arcsec) (10—300 sec)