CALET と MAXI で観測されている突発天体

CALET と MAXI で観測されている突発天体
坂本貴紀、川久保雄太、橋本達也 (青学)、中平聡志 (JAXA)、芹野素子 (理研)

Contents CALET MAXI CALET-MAXI simultaneously observed GRBs
Overview of CALET GRBs observed by CALET Gamma-ray Burst Monitor MAXI MAXI observation of GRBs MAXI Unidentified Short Soft Transient (MUSST) CALET-MAXI simultaneously observed GRBs GRB A: Broad-band prompt emission observation GRB A: Soft X-ray emission before the main episode FRB : Re-visit Swift/BAT data (bonus) 11/30/16 High energy astro

Overview of CALET: CALorimetric Electron Telescope
11/30/16 High energy astro

CALET (CALorimetric Electron Telescope)
Observatory of high energy electrons and gamma-rays Observation of high energy cosmic-rays All sky gamma-ray survey (> 10 GeV) High energy transients (GRBs, SGRs, …) CGBM/HXM CGBM/SGM CAL ASC MAXI Scientific instruments: CALorimeter (CAL) Electrons: 1 GeV – 20 TeV Gamma-rays: 10 GeV – 10 TeV (a few GeV – 10 TeV) Protons and Heavy ions: (~10 GeV – 1 PeV) CALET Gamma-ray Burst Monitor (CGBM) Hard X-ray Monitor (HXM): 7 keV – 1 MeV Soft Gamma-ray Monitor (SGM): 100 keV – 20 MeV CALET (port#9) ©JAXA 11/30/16 High energy astro

CAL (CALorimeter) Gamma-ray performance CHD (Charge Detector):
(Charge measurement: Z=1-40) IMC (Imaging Calorimeter): (Arrival direction and event ID) TASC (Total Absorption Calorimeter): (Energy measurement and event ID) 1 TeV electron shower (simulation) Gamma-ray performance CALET simulation (>10 GeV; 3 year) CAL Energy range (photon) 10 GeV-10 TeV Effective area 600 cm2 10 GeV) Angular resolution GeV FOV ~2 sr Crab Vela Galactic diffuse 11/30/16 High energy astro

CALET Gamma-ray Burst Monitor (CGBM)
Hard X-ray Monitor (HXM) Soft Gamma-ray Monitor (SGM) HXM SGM Detector (Crystal) LaBr3(Ce) BGO Number of detector 2 1 Diameter [mm] 61 102 Thickness [mm] 12.7 76 Energy range [keV] 7-1000 Energy keV ~3% ~15% Field of view ~3 sr ~2p sr 100 HXM x 2 Effective area [cm2] 10 SGM 1 11/30/16 High energy astro 10 100 1000 10000 Energy [keV]

CALET GRB Observation On-board CGBM trigger response:
Stored the CGBM event data Lower the energy range of CAL to ~1 GeV Capture two optical images by ASC CAL CGBM ASC Energy range 1 GeV – 10 TeV (10 GeV – 10 TeV) HXM: 7 keV – 1 MeV SGM: 100 keV – 20 MeV A Angular resolution 2.5o 1 GeV) 0.35o 10 GeV) - ~1” Field of view ~2 sr HXM: ~ 3 sr SGM: ~ 2p sr 18.4o x 13.4o Time resolution 62.5 ms GRB trigger: 62.5 ms (event data) Regular: 125 ms (8 ch), 4 s (512 ch) 0.5 s x 2 [8.6 mag (R)] 11/30/16 High energy astro

CGBM Operation Status Scientific observation: October 6, 2015
Observation efficiency: ~60% (HV-on time) On-board trigger alert (GCN notice) ( Alert rate: 15 alerts/month Only send alert when we have a connection to ISS (~70% of time) Light curves are available at 11/30/16 High energy astro

GRBs Observed by CGBM 11/30/16 High energy astro

CGBM GRB light curve gallery
GRB151006A GRB151015A GRB151107B GRB151210B GRB151212B HXM keV HXM keV HXM keV SGM keV HXM keV HXM keV SGM keV SGM keV SGM keV GRB151225A GRB151227B GRB151231A GRB160101A SGM keV HXM keV HXM keV HXM keV SGM keV SGM keV SGM keV GRB160106A GRB160107A GRB160118A GRB160223B HXM keV HXM keV HXM keV SGM keV HXM keV HXM keV HXM keV SGM keV SGM keV SGM keV 11/30/16 High energy astro

CGBM GRB Statistics 49 GRBs (including 4 possible GRBs)
GRB rate: ~48 GRBs/yr 40 long GRBs (82%), 9 short GRBs (18%) Simultaneous GRB detection by: Fermi-GBM: 76% (31 GRBs) Swift-BAT: 30% (12 GRBs; including GRBs with outside the field of view of BAT) Konus-Wind: 49% (20 GRBs) MAXI-GSC: 10% (4 GRBs) 3 known-z GRBs (160509A: z=1.17, A: z=0.367, B: z=1.406) (Fermi-GBM: 82% long GRBs, 18% short GRBs (Paciesas et al. 2012) 11/30/16 High energy astro

T90 Duration Distribution
6 CGBM keV 4 2 100 BATSE keV 50 Number of GRBs Fermi-GBM keV 200 100 Swift-BAT keV 100 50 0.001 0.01 0.1 1 10 100 1000 T90 [s] 11/30/16 High energy astro

6 CGBM keV 4 2 100 BATSE keV 50 Number of GRBs Fermi-GBM keV 200 100 Swift-BAT keV 100 50 0.001 0.01 0.1 1 10 100 1000 T90 [s] Both short and long GRBs are detected (similar fraction to Fermi-GBM). 11/30/16 High energy astro

Comparison of the effective area T90 duration has a strong instrumental effect. GRB A SGM High ( keV) SGM Low ( MeV) Fermi-GBM NaI ( keV) Rate [c/s] Fermi-GBM BGO (0.1 – 50 MeV) (Meegan et al.) Swift-BAT ( keV) Time since the trigger [s] 11/30/16 High energy astro

6 CGBM keV 4 2 100 BATSE keV 50 Number of GRBs Fermi-GBM keV 200 100 Swift-BAT keV 100 50 0.001 0.01 0.1 1 10 100 1000 T90 [s] Both short and long GRBs are detected (similar fraction to Fermi-GBM) The shorter T90 for long GRBs (tip of the iceberg effect?) 11/30/16 High energy astro

Energy fluence vs. T90 duration
CGBM triggered Fermi-GBM GRBs Fermi-GBM GRBs 5 Crab (= 1.9 x 10-7 erg/cm2/s) 1 Crab (= 3.8 x 10-8 erg/cm2/s) Energy fluence ( keV) [erg cm-2] 6 x 10-7 erg/cm2 T90 duration [sec] 11/30/16 High energy astro

64 ms peak photon flux [ph cm-2 sec-1]
Peak flux vs. T90 duration CGBM triggered Fermi-GBM GRBs Fermi-GBM GRBs 64 ms peak photon flux [ph cm-2 sec-1] ( keV) 10 ph/cm2/s (~16 Crab) 3 ph/cm2/s (~5 Crab) T90 duration [sec] 11/30/16 High energy astro

Other Transient Events
Short bursts from SGR Solar flares SGM keV HXM 7-10 keV 2016/6/20 15:16:34.8 HXM keV 2016/6/23 21:20:46.3 Rate [c/s] Rate [c/s] HXM keV 2016/6/24 10:22:09.3 HXM keV Time since the trigger [sec] Time since 7/18/2016 8:12:07 [sec] 11/30/16 High energy astro

CAL Gamma-ray Performance
Gamma-ray signal search for GW by CAL (Andriani et al. 2016) CAL effective area in this analysis Gamma-ray event selection 600 Good shower characteristics No Hits in CHD and at the top IMC Layer >1 GeV 0 < q < 5o 17.5o < q < 22.5o 27.5o < q < 32.5o 500 Simulation 400 Effective area [cm2] 300 CHD 200 IMC 100 CAL all sky map TASC Energy [GeV] CAL all sky map 2015/10/13 – 2016/05/31 Fermi-LAT (on-axis) Preliminary > 1 GeV Geminga Galactic Latitude Crab (Note: non-uniform exposure) 11/30/16 High energy astro Galactic Longitude

Summary: CALET CALET started its scientific observation since October 2015. CGBM detected 49 GRBs as of today (detection rate of 48 GRBs/yr). 82% long GRBs and 18% short GRBs (similar to Fermi-GBM). CGBM fluence GRB sensitivity is ~6 x 10-7 erg/cm2 ( keV). CGBM peak flux GRB sensitivity is ~3 ph/cm2/s1 ( keV) for long GRBs and ~10 ph/cm2/s1 ( keV) for short GRBs. CGBM spectral calibration and CAL gamma-ray analysis for GRBs are on-going. 11/30/16 High energy astro

MAXI Observations of GRBs

Highlight of MAXI Transients
(Negoro et al. 2016) Atel & GCN reported numbers BHC: 6 (new), 6 (known) NS LMXB: 4 (new), 13 (known) Pulsar: 1 (new), 18 (known) SFXT: 0 (new), 2 (known) WD: 1 (new), 0 (known) Stars: 21 AGN: 6 GRB: 63 11/30/16 High energy astro

MAXI/GSC Performance Performance Energy range: 2-30 keV
FOV: 3 deg x 160 deg (horizontal and zenith directions) Typical transit time: s Maximum effective area: 20 cm2 Position accuracy: o (radius) + 0.1o (sys) ( o) x ( o) (box) + 0.1o (sys) Same FOV point source: Operation GSC operates between latitude ± 40 deg (avoid a risk of discharge to carbon wires) Operation efficiency: 80% % 11/30/16 High energy astro

GRB Prompt Emission Spectrum
GRB A Epeak E-0.5 (E-2.5) E (E-1) nFn Band function (Band et al. 1993) Energy [keV] 11/30/16 High energy astro

X-Ray Flashes (XRFs) (Ginga and BeppoSAX era)
Ginga (Strohmayer et al. 1998) WFC / BATSE (Kippen et al. 2002) 10 100 1000 Ep (keV) Peak Flux P1024 (ph cm-2 s-1) (22 GRBs) Number of Events 1 2 3 4 log Ep [keV] XRFs: “Gamma-ray” bursts which emits most of the emission in X-rays 11/30/16 High energy astro

HETE XRFs HETE-2 Epeak Distribution (Sakamoto et al. )
2- 5 keV XRF HETE-2 Epeak Distribution (Sakamoto et al. ) 5- 10 keV 10 39 Samples BATSE GRBs 8 30 keV keV 6 Count rate [c/s] Number of Events 4 6- 40 keV 2 6- 80 keV Log (Epeak) [keV] keV Broad Epeak distribution, extension to the low energy range 11/30/16 High energy astro Time [s]

MAXI GRB Catalog 35 GRBs 15 GRBs (~40%) (4 known-z GRBs)
(Serino et al. 2014) From August 15, 2009 to middle of 2013: 35 GRBs 15 GRBs (~40%) (4 known-z GRBs) Simultaneously observed by other GRB instruments (Fermi-GBM/LAT, Konus-Wind, Swift/BAT, INTEGRAL) (Excluding unID transients in galactic latitude ±10 deg.) 25 GRBs (~60%): MAXI only detection MAXI/GSC GRB rate: ~ 10 GRBs/yr Typical delay time in sending MAXI GSC location to the community (e.g., GCN) 2 hours - a few days 11/30/16 High energy astro

GRB Light curve and Spectrum
GRB (1s bin) GRB (MAXI/GSC+Fermi/GBM) Fermi/GBM MAXI/GSC GRB (MAXI/GSC+Swift/BAT) MAXI/GSC Swift/BAT 11/30/16 High energy astro

MAXI XRF 100315A No obvious emission above 10 keV Hardness ratio
(8-20 keV) / (2-8 keV) = 0.25 ± 0.13 4-10 keV (Epeak < 5 keV) 10-20 keV No obvious emission above 10 keV 11/30/16 High energy astro

Hardness Ratio vs. Flux MAXI GRBs are weak and soft. 8-20 keV 2-8 keV

log N-log F of MAXI GRBs All GRBs MAXI+others MAXI only Similar results in HETE-2 GRB sample (Sakamoto 2004) 11/30/16 The distance of XRFs can be closer to the Euclidean space. High energy astro

log N – log P of HETE XRFs 20 (Sakamoto Ph.D. thesis) 10 XRF
GRB (Ep > 50 keV) 5 N (>P) P -3/2 2 1 1 10 100 P keV (ph cm-2 s-1) 11/30/16 The distance of XRFs are close to the Euclidean space. High energy astro

log N-log F of MAXI GRBs All GRBs MAXI+others MAXI only F-3/2 Similar results in HETE-2 GRB sample (Sakamoto 2004) 11/30/16 The distance of XRFs can be closer to the Euclidean space. High energy astro

MAXI Unidentified Short Soft Transient (MUSST)

What is MUSST? Unidentified X-ray source
> 0.1 Crab in flux at detection, but only detected in a single GSC scan Only detected by MAXI (no detection by other satellite) No X-ray counterpart found by Swift/XRT follow-up observations 11/30/16 High energy astro

MUSST List Name (RA, Dec) T0 (MAXI) MAXI T0 2-20 keV Flux
Swift ToO Time Swift/XRT 3 s UL keV Flux 1 MAXI J ( , ) :40:57 1.3 x 10-8 T0+1.7 hour 1.9 x 10-12 (2.3 x 10-12) 2 GRB C (60.247, ) :24:15 4.9 x 10-9 T0+4.5 hour 1.1 x 10-12 (1.6 x 10-12) 3 MAXI J ( , ) :18:16 3.1 x 10-9 T0+2.0 day 9.3 x 10-13 (1.1 x 10-12) 4 GRB A ( , ) :12:31 7.1 x 10-9 T0+6.3 hour 4.4 x 10-13 (4.7 x 10-13) 5 MAXI J (86.44, 4.32) :25:54 6.2 x 10-9 T0+1.1 day 2.2 x 10-12 (3.3 x 10-12) 6 GRB A (248.10, 10.51) :37:01 5.2 x 10-9 T hour 3.8 x 10-13 (4.4 x 10-13) 7 MAXI J (247.83, ) :12:38 3.7 x 10-9 4.6 x 10-13 (6.1 x 10-13) Flux in the unit of erg/cm2/s. Swift/XRT upper limit is in the observed flux and the flux in the parenthesis is unabsorbed flux. 11/30/16 High energy astro

MUSST GSC Localization and Swift/XRT Tiling Observation
MAXI J GRB C MAXI J XRT field of view 33’ MAXI error region GRB A MAXI J GRB A MAXI J 11/30/16 High energy astro

X-ray Upper Limit by Swift/XRT Follow-up Observations
1 2 3 4 5 6 7 11/30/16 High energy astro

Flux vs. Hardness of MUSST
HETE GRB HETE XRF MAXI + Others MAXI only MUSST 11/30/16 High energy astro

MUSST is similar to XRFs
(Sakamoto et al. 2008) - XRFs have a lower X-ray afterglow flux/luminosity comparing to C-GRBs. Similar trend to what XRT upper limits are suggesting for MUSST. 11/30/16 High energy astro

Summary: MAXI MAXI GRBs MUSST MAXI/GSC GRB rate: ~10 GRBs/yr
2/3 of MAXI GRBs (MAXI only detection) have a soft spectrum (no emission above 10 keV) MAXI only soft GRBs shows a similar log N- log F distribution to that of HETE-2 XRFs (closer to -2/3 slope) MUSST 7 MUSST ( ) Swift/XRT X-ray UL suggests MUSST is populated at a low X-ray afterglow flux region (if MUSST is associated to GRBs) MUSST ~ XRFs? 11/30/16 High energy astro

CALET-MAXI simultaneously observed GRBs

Field of view of MAXI and CGBM
MAXI GSC MAXI SSC Paddle SGM: 2 pi str: deg^2 MAXI/GSC: 3 deg x 160 deg = 480 deg^2  FOV fraction (SGM/GSC) = 43: バッチリ FOV が合うのは年間 1個 FOV of HXM FOV of SGM 11/30/16 High energy astro

Four MAXI-GSC and CGBM Simultaneously Detected GRBs
GRB A GRB A MAXI/GSC 2-4 keV MAXI/GSC 2-4 keV Rate [c/s] Rate [c/s] CGBM keV (HXM) CGBM 7-10 keV (HXM) Time since trigger [s] Time since trigger [s] GRB A GRB A MAXI/GSC 2-4 keV MAXI/GSC 2-4 keV Rate [c/s] Rate [c/s] CGBM keV (SGM) CGBM 7-10 keV (HXM) 11/30/16 High energy astro Time since trigger [s] Time since trigger [s]

GRB 160101A Trigger time: CGBM: 2016-01-01 00:43:54 (UT)
MAXI: :43:52 (UT) Also triggered Fermi-GBM/Konus-Wind S (20 keV – 10 MeV): 1.5 x 10-5 [erg/cm2] Epeak ~ 140 keV Swift ToO observation (T – T ks) One X-ray AG candidate MAXI/GSC 2-4 keV MAXI/GSC 4-10 keV MAXI/GSC keV CGBM/HXM keV Rate [c/s] MAXI-GSC spectrum (1 scan; time-averaged) CGBM/HXM keV Single power-law CGBM/HXM keV alpha = -0.9 ± 0.1 CGBM/HXM keV Time since trigger [s] 11/30/16 High energy astro

GRB 160101A: Energy-resolved T90 duration
GRB (Crew et al. 2003) T90 ~ E-0.40 T90 ~ E-0.44 MAXI-GSC T90 [s] CGBM Fenimore relation: Pulse-width ~ E-0.40 (Fenimore et al. 1995) Energy [keV] 11/30/16 High energy astro

GRB 160107A: Pre-burst emission
MAXI detection: T0 (CGBM) - 45 s MAXI/GSC spectrum: Highly absorbed power-law NH = (6 ± 3) x 1022 cm-2 alpha = -3.0 ± 0.7 Blackbody kT = 1.3 ± 0.2 keV MAXI-GSC 2-4 keV MAXI-GSC 4-10 keV MAXI-GSC keV HXM 7-10 keV HXM keV Rate [c/s] HXM keV HXM keV HXM keV SGM keV SGM keV Rate [c/s] SGM keV Time since trigger [s] 11/30/16 High energy astro Time since trigger [s]

Pre-burst Emission & Quiescent Period
Yamazaki 2009 BAT survey data search (Lien et al. 2016) 1 possible detection (4.7 s) / 794 GRBs No bright pre-burst emission found in the BAT data. X-ray emission at the quiescent period GRB A BAT keV Rate [c/s/det] XRT keV Alpha = ± 0.15 Flux [erg/cm2/s] If a true burst T0 is few hours before the instrument oriented T0, the shallow decay seen in XRT is no longer shallow (close to normal decay). Time since BAT trigger [s] High sensitive wide-field soft X-ray survey!! 11/30/16 High energy astro

Summary: CALET-MAXI GRBs
Four GRBs (GRB A, GRB A, GRB A and GRB A) are simultaneously detected by CGBM and MAXI/GSC. GRB A: keV broad-band GRB prompt light curve is available. GRB A: MAXI/GSC detected the emission 45 s prior to the main GRB episode. 11/30/16 High energy astro

GRB conference 2018? in Japan
At Huntsville GRB conference, Valerie Connaughton (LOC, SOC) asked me for a possibility of organizing GRB conference (two years from now) in Japan. Yokohama Multi-messenger GRB 2018? 11/30/16 High energy astro

FRB 131104: Re-visit Swift/BAT data

12th Anniversary of Swift!!
Launch: November 20, 2004 (12th year on-orbit!) 2016 NASA senior review: Swift ranked No. 1!! >1000 GRBs detected (~90 GRBs/yr) (Lien et al. 2016) No hardware issue “Many more years of discovery with Swift!!” (Neil Gehrels) 11/30/16 High energy astro

Hard X-ray Counterpart of FRB 131104?

BAT Image Analysis Flux mask (default) Detection mask
Sky image using the flux mask Sky image using the detection mask FRB position FRB position 11/30/16 High energy astro

BAT 64 ms Raw Light Curve BAT keV BAT keV BAT keV No excess signal in the BAT raw 64 ms light curve BAT keV 11/30/16 High energy astro

BAT 1.6 s Light Curve (quad-rate)
BAT mask shadow of FRB direction Quad0 Quad1 Quad1 Quad2 Quad3 Quad2 Partial coding fraction: 6% coding Quad3 11/30/16 High energy astro

BAT Survey Data Analysis
14-24 keV 24-50 keV No significant detection around T0 in the BAT survey data. keV keV 11/30/16 High energy astro

BAT Scaled Map Analysis
15-50 keV Rate [c/s/det] Time since 18:03: UTC [s] 11/30/16 High energy astro

Summary: BAT FRB The BAT detection claim of the hard X-ray counterpart of FRB is not convincing. The position was extremely partial coded FOV which requires a full coded mask to generate the image (not recommended in a standard analysis). Doesn’t show any excess in the raw light curve. Furthermore, no excess in the light curve of quadrant#3 (inconsistent with the mask image). The light curves generated by the image analysis (survey data and scaled map data) are both consistent with zero flux around the FRB trigger time. 11/30/16 High energy astro

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CALET と MAXI で観測されている突発天体

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