Estimated redshift from machine learning (Ukwatta et al. 2016) - may take a few minute to calcaulte
Image
Pre-slew 15.0-350.0 keV image (Event data)
# RAcent DECcent POSerr Theta Phi Peak Cts SNR Name
79.8540 -21.4340 0.0138 40.0591 5.0169 0.6543633 14.060 TRIG_00748898
Foreground time interval of the image:
-0.376 8.584 (delta_t = 8.960 [sec])
Background time interval of the image:
-769.835 -715.357 (delta_t = 54.479 [sec])
-239.136 -0.376 (delta_t = 238.760 [sec])
Lightcurves
Notes:
- 1) The mask-weighted light curves are using the flight position.
- 2) Multiple plots of different time binning/intervals are shown to cover all scenarios of short/long GRBs, rate/image triggers, and real/false positives.
- 3) For all the mask-weighted lightcurves, the y-axis units are counts/sec/det where a det is 0.4 x 0.4 = 0.16 sq cm.
- 4) The verticle lines correspond to following: green dotted lines are T50 interval, black dotted lines are T90 interval, blue solid line(s) is a spacecraft slew start time, and orange solid line(s) is a spacecraft slew end time.
- 5) Time of each bin is in the middle of the bin.
1 s binning
From T0-310 s to T0+310 s
From T100_start - 20 s to T100_end + 30 s
Full time interval
64 ms binning
Full time interval
From T100_start to T100_end
From T0-5 sec to T0+5 sec
16 ms binning
From T100_start-5 s to T100_start+5 s
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
8 ms binning
From T100_start-3 s to T100_start+3 s
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
2 ms binning
From T100_start-1 s to T100_start+1 s
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
SN=5 or 10 sec. binning (whichever binning is satisfied first)
SN=5 or 10 sec. binning (T < 200 sec)
Quad-rate summed light curves (from T0-300s to T0+1000s)
Spectral Evolution
Spectra
Notes:
- 1) The fitting includes the systematic errors.
- 2) When the burst includes telescope slew time periods, the fitting uses an average response file made from multiple 5-s response files through out the slew time plus single time preiod for the non-slew times, and weighted by the total counts in the corresponding time period using addrmf. An average response file is needed becuase a spectral fit using the pre-slew DRM will introduce some errors in both a spectral shape and a normalization if the PHA file contains a lot of the slew/post-slew time interval.
- 3) For fits to more complicated models (e.g. a power-law over a cutoff power-law), the BAT team has decided to require a chi-square improvement of more than 6 for each extra dof.
Time averaged spectrum fit using the average DRM
Power-law model
Time interval is from -0.376 sec. to 8.584 sec.
Spectral model in power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 2.03879 ( -0.249121 0.271912 )
Norm@50keV : 3.61102E-03 ( -0.000639877 0.000617274 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 53.20 using 59 PHA bins.
# Reduced chi-squared = 0.9334 for 57 degrees of freedom
# Null hypothesis probability = 6.183075e-01
Photon flux (15-150 keV) in 8.96 sec: 0.551587 ( -0.074119 0.074138 ) ph/cm2/s
Energy fluence (15-150 keV) : 2.99136e-07 ( -4.81103e-08 4.92158e-08 ) ergs/cm2
Cutoff power-law model
Time interval is from -0.376 sec. to 8.584 sec.
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.70143 ( -1.18845 0.431479 )
Epeak [keV] : 37.9792 ( -35.4881 -37.9799 )
Norm@50keV : 5.62370E-03 ( )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 52.86 using 59 PHA bins.
# Reduced chi-squared = 0.9439 for 56 degrees of freedom
# Null hypothesis probability = 5.945111e-01
Photon flux (15-150 keV) in 8.96 sec: 0.545214 ( -0.076473 0.076294 ) ph/cm2/s
Energy fluence (15-150 keV) : 0 ( 0 0 ) ergs/cm2
Band function
Time interval is from -0.376 sec. to 8.584 sec.
Spectral model in the Band function:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
alpha : ( )
beta : ( )
Epeak [keV] : ( )
Norm@50keV : ( )
------------------------------------------------------------
Photon flux (15-150 keV) in sec: ( ) ph/cm2/s
Energy fluence (15-150 keV) : 0 ( 0 0 ) ergs/cm2
Single BB
Spectral model blackbody:
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 9.80525 (-1.59493 1.88638)
R^2/D10^2 : 0.273271 (-0.133224 0.265898)
(R is the radius in km and D10 is the distance to the source in units of 10 kpc)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 65.71 using 59 PHA bins.
# Reduced chi-squared = 1.153 for 57 degrees of freedom
# Null hypothesis probability = 2.006930e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 4.761e-08 1.285e-08
25- 50 1.151e-07 2.178e-08
50-150 5.673e-08 2.000e-08
15-150 2.194e-07 4.932e-08
Thermal bremsstrahlung (OTTB)
Spectral model: thermal bremsstrahlung
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 64.6680 (-21.8174 40.9428)
Norm : 2.79181 (-0.569711 0.730765)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 53.22 using 59 PHA bins.
# Reduced chi-squared = 0.9336 for 57 degrees of freedom
# Null hypothesis probability = 6.177589e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 6.357e-08 1.082e-08
25- 50 9.893e-08 1.776e-08
50-150 1.196e-07 4.113e-08
15-150 2.821e-07 5.322e-08
Double BB
Spectral model: bbodyrad<1> + bbodyrad<2>
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT1 [keV] : 5.42262 (-2.68039 2.59175)
R1^2/D10^2 : 1.84742 (-1.35767 37.1476)
kT2 [keV] : 18.1874 (-6.27241 20.4951)
R2^2/D10^2 : 1.80848E-02 (-0.0168785 0.0929084)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 53.72 using 59 PHA bins.
# Reduced chi-squared = 0.9767 for 55 degrees of freedom
# Null hypothesis probability = 5.236704e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 6.579e-08 3.567e-08
25- 50 9.357e-08 4.901e-08
50-150 1.226e-07 7.603e-08
15-150 2.820e-07 1.507e-07
Peak spectrum fit
Power-law model
Time interval is from 0.460 sec. to 1.460 sec.
Spectral model in power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.91506 ( -0.280225 0.304743 )
Norm@50keV : 1.00803E-02 ( -0.00198561 0.00191511 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 50.26 using 59 PHA bins.
# Reduced chi-squared = 0.8817 for 57 degrees of freedom
# Null hypothesis probability = 7.240580e-01
Photon flux (15-150 keV) in 1 sec: 1.45607 ( -0.23283 0.2329 ) ph/cm2/s
Energy fluence (15-150 keV) : 9.27065e-08 ( -1.74403e-08 1.78285e-08 ) ergs/cm2
Cutoff power-law model
Time interval is from 0.460 sec. to 1.460 sec.
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.39564 ( -1.59647 0.782181 )
Epeak [keV] : 50.5547 ( )
Norm@50keV : 1.98453E-02 ( )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 49.79 using 59 PHA bins.
# Reduced chi-squared = 0.8890 for 56 degrees of freedom
# Null hypothesis probability = 7.077547e-01
Photon flux (15-150 keV) in 1 sec: 1.43300 ( -0.24111 0.23984 ) ph/cm2/s
Energy fluence (15-150 keV) : 0 ( 0 0 ) ergs/cm2
Band function
Time interval is from 0.460 sec. to 1.460 sec.
Spectral model in the Band function:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
alpha : ( )
beta : ( )
Epeak [keV] : ( )
Norm@50keV : ( )
------------------------------------------------------------
Photon flux (15-150 keV) in sec: ( ) ph/cm2/s
Energy fluence (15-150 keV) : 0 ( 0 0 ) ergs/cm2
Single BB
Spectral model blackbody:
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 10.9607 (-1.95351 2.27087)
R^2/D10^2 : 0.491943 (-0.25009 0.531414)
(R is the radius in km and D10 is the distance to the source in units of 10 kpc)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 57.06 using 59 PHA bins.
# Reduced chi-squared = 1.001 for 57 degrees of freedom
# Null hypothesis probability = 4.727282e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 1.234e-08 3.532e-09
25- 50 3.473e-08 8.450e-09
50-150 2.350e-08 9.120e-09
15-150 7.057e-08 1.724e-08
Thermal bremsstrahlung (OTTB)
Spectral model: thermal bremsstrahlung
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 78.2360 (-30.9023 73.4821)
Norm : 6.92077 (-1.44087 1.98052)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 49.79 using 59 PHA bins.
# Reduced chi-squared = 0.8736 for 57 degrees of freedom
# Null hypothesis probability = 7.397131e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 1.793e-08 3.940e-09
25- 50 2.936e-08 5.810e-09
50-150 4.082e-08 2.604e-08
15-150 8.811e-08 2.759e-08
Double BB
Spectral model: bbodyrad<1> + bbodyrad<2>
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT1 [keV] : 4.56015 (-2.75731 -4.56184)
R1^2/D10^2 : 7.74665 (-6.70213 1422.35)
kT2 [keV] : 15.3443 (-4.19776 -15.349)
R2^2/D10^2 : 0.110551 (-0.0982735 0.181692)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 50.09 using 59 PHA bins.
# Reduced chi-squared = 0.9108 for 55 degrees of freedom
# Null hypothesis probability = 6.621980e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 1.827e-08 1.009e-08
25- 50 2.865e-08 1.524e-08
50-150 3.580e-08 2.142e-08
15-150 8.272e-08 4.370e-08
Pre-slew spectrum (Pre-slew PHA with pre-slew DRM)
Power-law model
Spectral model in power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 2.03879 ( -0.249121 0.271912 )
Norm@50keV : 3.61102E-03 ( -0.000639877 0.000617274 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 53.20 using 59 PHA bins.
# Reduced chi-squared = 0.9334 for 57 degrees of freedom
# Null hypothesis probability = 6.183075e-01
Photon flux (15-150 keV) in 8.96 sec: 0.551543 ( -0.0741111 0.0741312 ) ph/cm2/s
Energy fluence (15-150 keV) : 2.9908e-07 ( -4.80899e-08 4.92321e-08 ) ergs/cm2
Cutoff power-law model
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.70140 ( -1.18844 0.67222 )
Epeak [keV] : 37.9799 ( -34.1264 -37.9799 )
Norm@50keV : 5.62395E-03 ( )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 52.86 using 59 PHA bins.
# Reduced chi-squared = 0.9439 for 56 degrees of freedom
# Null hypothesis probability = 5.945111e-01
Photon flux (15-150 keV) in 8.96 sec: 0.545083 ( -0.07644 0.075583 ) ph/cm2/s
Energy fluence (15-150 keV) : 2.90478e-07 ( -5.33577e-08 5.47017e-08 ) ergs/cm2
Band function
Spectral model in the Band function:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
alpha : ( )
beta : ( )
Epeak [keV] : ( )
Norm@50keV : ( )
------------------------------------------------------------
Photon flux (15-150 keV) in sec: ( ) ph/cm2/s
Energy fluence (15-150 keV) : 0 ( 0 0 ) ergs/cm2
S(25-50 keV) vs. S(50-100 keV) plot
S(25-50 keV) = 9.14e-08
S(50-100 keV) = 8.86e-08
T90 vs. Hardness ratio plot
T90 = 7.77600002288818 sec.
Hardness ratio (energy fluence ratio) = 0.969365
Color vs. Color plot
Count Ratio (25-50 keV) / (15-25 keV) = 1.06281
Count Ratio (50-100 keV) / (15-25 keV) = 0.527726
Mask shadow pattern
IMX = 8.376373229670094E-01, IMY = -7.353312053587659E-02
TIME vs. PHA plot around the trigger time
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
TIME vs. DetID plot around the trigger time
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
100 us light curve (15-350 keV)
Blue+Cyan dotted lines: Time interval of the scaled map
From 0.000000 to 1.024000
Spacecraft aspect plot
Bright source in the pre-burst/pre-slew/post-slew images
Pre-burst image of 15-350 keV band
Time interval of the image:
-769.835400 -715.356900
-239.136000 -0.376000
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
69.6355 -61.8594 3.2 33.9 75.6 1.4973 3.6 ------ UNKNOWN
81.3259 -1.9153 3.0 53.0 -15.4 2.0399 3.9 ------ UNKNOWN
67.2309 -0.4078 3.6 44.8 -30.8 1.2484 3.2 ------ UNKNOWN
0.7514 -0.5465 3.5 48.0 -129.1 3.3561 3.3 55.7 UNKNOWN
Pre-slew background subtracted image of 15-350 keV band
Time interval of the image:
-0.376000 8.584000
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
79.8534 -21.4346 0.8 40.1 5.0 0.6479 14.0 ------ UNKNOWN
71.4886 -1.3798 2.3 46.7 -25.3 0.2944 5.1 ------ UNKNOWN
339.5288 -14.3546 2.3 55.0 -160.1 0.6980 5.1 ------ UNKNOWN
341.8434 -9.2211 2.0 56.1 -153.4 1.0652 5.7 ------ UNKNOWN
Post-slew image of 15-350 keV band
Time interval of the image:
84.764600 962.894000
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
83.6310 22.0196 0.4 43.6 -22.2 35.7643 31.0 0.3 Crab
109.2153 25.9792 3.0 55.3 5.2 9.7864 3.9 ------ UNKNOWN
22.0750 -63.9782 3.8 56.9 179.0 13.9550 3.0 ------ UNKNOWN
92.8647 11.2536 2.9 35.1 -4.7 3.3898 3.9 ------ UNKNOWN
37.9362 -32.8217 3.1 38.7 -143.5 4.2829 3.7 ------ UNKNOWN
29.0834 -34.5063 2.9 46.2 -145.1 6.3945 3.9 ------ UNKNOWN
Plot creation:
Wed May 3 18:04:52 EDT 2017