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
112.1558 -39.8965 0.0024 26.6283 -50.7913 13.1595389 81.214 TRIG_00715246
Foreground time interval of the image:
-5.160 14.645 (delta_t = 19.805 [sec])
Background time interval of the image:
-32.155 -5.160 (delta_t = 26.995 [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 -5.160 sec. to 27.308 sec.
Spectral model in power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.47176 ( -0.0311586 0.0310994 )
Norm@50keV : 2.86838E-02 ( -0.000481683 0.000481432 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 47.61 using 59 PHA bins.
# Reduced chi-squared = 0.8353 for 57 degrees of freedom
# Null hypothesis probability = 8.076864e-01
Photon flux (15-150 keV) in 32.47 sec: 3.55444 ( -0.07038 0.07063 ) ph/cm2/s
Energy fluence (15-150 keV) : 8.87876e-06 ( -1.48195e-07 1.48425e-07 ) ergs/cm2
Cutoff power-law model
Time interval is from -5.160 sec. to 27.308 sec.
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.20855 ( -0.13142 0.127856 )
Epeak [keV] : 177.046 ( -39.4377 106.21 )
Norm@50keV : 3.71636E-02 ( -0.00429414 0.00498765 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 34.99 using 59 PHA bins.
# Reduced chi-squared = 0.6248 for 56 degrees of freedom
# Null hypothesis probability = 9.875396e-01
Photon flux (15-150 keV) in 32.47 sec: 3.47668 ( -0.07834 0.07881 ) ph/cm2/s
Energy fluence (15-150 keV) : 8.76037e-06 ( -1.59307e-07 1.58958e-07 ) ergs/cm2
Band function
Time interval is from -5.160 sec. to 27.308 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] : 18.4069 ( )
R^2/D10^2 : 0.192874 ( )
(R is the radius in km and D10 is the distance to the source in units of 10 kpc)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 709.17 using 59 PHA bins.
# Reduced chi-squared = 12.442 for 57 degrees of freedom
# Null hypothesis probability = 2.513061e-113
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 4.217e-07 1.494e-08
25- 50 1.983e-06 5.114e-08
50-150 4.904e-06 1.380e-07
15-150 7.308e-06 1.266e-07
Thermal bremsstrahlung (OTTB)
Spectral model: thermal bremsstrahlung
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 200.000 (-2.81937 -200)
Norm : 14.8458 (-0.245773 0.245773)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 84.99 using 59 PHA bins.
# Reduced chi-squared = 1.491 for 57 degrees of freedom
# Null hypothesis probability = 9.522631e-03
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 1.201e-06 2.468e-08
25- 50 2.310e-06 4.367e-08
50-150 5.066e-06 1.007e-07
15-150 8.576e-06 1.705e-07
Double BB
Spectral model: bbodyrad<1> + bbodyrad<2>
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT1 [keV] : 8.77090 (-0.575046 0.598358)
R1^2/D10^2 : 1.61048 (-0.302958 0.397246)
kT2 [keV] : 31.9408 (-2.24891 2.79831)
R2^2/D10^2 : 2.24392E-02 (-0.00573659 0.00678836)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 39.81 using 59 PHA bins.
# Reduced chi-squared = 0.7238 for 55 degrees of freedom
# Null hypothesis probability = 9.385874e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 8.842e-07 5.650e-08
25- 50 2.283e-06 7.208e-08
50-150 5.514e-06 2.078e-07
15-150 8.682e-06 2.727e-07
Peak spectrum fit
Power-law model
Time interval is from 0.380 sec. to 1.380 sec.
Spectral model in power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.06853 ( -0.0582344 0.0579323 )
Norm@50keV : 8.65769E-02 ( -0.00294915 0.0029479 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 51.35 using 59 PHA bins.
# Reduced chi-squared = 0.9009 for 57 degrees of freedom
# Null hypothesis probability = 6.859696e-01
Photon flux (15-150 keV) in 1 sec: 10.0140 ( -0.34968 0.3498 ) ph/cm2/s
Energy fluence (15-150 keV) : 9.14576e-07 ( -3.39328e-08 3.40172e-08 ) ergs/cm2
Cutoff power-law model
Time interval is from 0.380 sec. to 1.380 sec.
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 0.640428 ( -0.249464 0.236276 )
Epeak [keV] : 180.340 ( -46.0991 144.083 )
Norm@50keV : 0.135308 ( -0.0288692 0.0389241 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 41.39 using 59 PHA bins.
# Reduced chi-squared = 0.7391 for 56 degrees of freedom
# Null hypothesis probability = 9.276231e-01
Photon flux (15-150 keV) in 1 sec: 9.85873 ( -0.3591 0.35927 ) ph/cm2/s
Energy fluence (15-150 keV) : 1.8202e-07 ( -2.24431e-08 1.78327e-08 ) ergs/cm2
Band function
Time interval is from 0.380 sec. to 1.380 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] : 20.6003 ( )
R^2/D10^2 : 0.439417 ( )
(R is the radius in km and D10 is the distance to the source in units of 10 kpc)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 164.52 using 59 PHA bins.
# Reduced chi-squared = 2.8863 for 57 degrees of freedom
# Null hypothesis probability = 2.277039e-12
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 3.552e-08 2.405e-09
25- 50 1.804e-07 8.250e-09
50-150 5.695e-07 3.325e-08
15-150 7.854e-07 3.435e-08
Thermal bremsstrahlung (OTTB)
Spectral model: thermal bremsstrahlung
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT [keV] : 199.363 ( )
Norm : 40.9469 ( )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 229.70 using 59 PHA bins.
# Reduced chi-squared = 4.0298 for 57 degrees of freedom
# Null hypothesis probability = 1.362165e-22
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 1.020e-07 3.590e-09
25- 50 1.961e-07 7.400e-09
50-150 4.302e-07 1.560e-08
15-150 7.283e-07 2.715e-08
Double BB
Spectral model: bbodyrad<1> + bbodyrad<2>
------------------------------------------------------------
Parameters : value Lower 90% Upper 90%
kT1 [keV] : 10.2832 (-1.40949 1.54494)
R1^2/D10^2 : 2.34674 (-0.697089 1.11874)
kT2 [keV] : 38.8433 (-6.34675 11.7245)
R2^2/D10^2 : 4.64591E-02 (-0.0253301 0.0370343)
------------------------------------------------------------
#Fit statistic : Chi-Squared = 35.41 using 59 PHA bins.
# Reduced chi-squared = 0.6438 for 55 degrees of freedom
# Null hypothesis probability = 9.815074e-01
Energy Fluence 90% Error
[keV] [erg/cm2] [erg/cm2]
15- 25 6.023e-08 7.160e-09
25- 50 1.943e-07 2.120e-08
50-150 6.500e-07 1.277e-07
15-150 9.045e-07 1.531e-07
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: 1.45710 ( -0.0295973 0.0295355 )
Norm@50keV : 4.54885E-02 ( -0.000735796 0.000735307 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 55.20 using 59 PHA bins.
# Reduced chi-squared = 0.9684 for 57 degrees of freedom
# Null hypothesis probability = 5.428395e-01
Photon flux (15-150 keV) in 19.8 sec: 5.61576 ( -0.10722 0.10759 ) ph/cm2/s
Energy fluence (15-150 keV) : 8.60761e-06 ( -1.37327e-07 1.37337e-07 ) ergs/cm2
Cutoff power-law model
Spectral model in the cutoff power-law:
------------------------------------------------------------
Parameters : value lower 90% higher 90%
Photon index: 1.17133 ( -0.125472 0.122267 )
Epeak [keV] : 173.042 ( -34.6695 81.2795 )
Norm@50keV : 6.00521E-02 ( -0.00657601 0.0075686 )
------------------------------------------------------------
#Fit statistic : Chi-Squared = 38.85 using 59 PHA bins.
# Reduced chi-squared = 0.6937 for 56 degrees of freedom
# Null hypothesis probability = 9.607324e-01
Photon flux (15-150 keV) in 19.8 sec: 5.48256 ( -0.11877 0.11948 ) ph/cm2/s
Energy fluence (15-150 keV) : 8.49812e-06 ( -1.46124e-07 1.45669e-07 ) 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) = 2.17e-06
S(50-100 keV) = 3.12e-06
T90 vs. Hardness ratio plot
T90 = 15.7199999690056 sec.
Hardness ratio (energy fluence ratio) = 1.43779
Color vs. Color plot
Count Ratio (25-50 keV) / (15-25 keV) = 1.54854
Count Ratio (50-100 keV) / (15-25 keV) = 1.21444
Mask shadow pattern
IMX = 3.169454725944750E-01, IMY = 3.884934224084262E-01
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:
-32.155410 -5.160000
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
83.6244 22.0051 1.4 42.9 157.1 1.0301 8.0 0.7 Crab
135.7263 -40.6291 0.0 42.9 -64.3 0.1917 0.9 10.1 Vela X-1
136.5623 -40.9880 2.3 43.6 -64.1 1.1670 4.9 ------ UNKNOWN
Pre-slew background subtracted image of 15-350 keV band
Time interval of the image:
-5.160000 14.644600
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
83.4713 21.8869 63.9 42.8 156.9 0.0611 0.2 11.8 Crab
135.4030 -40.6047 20.0 42.7 -64.3 0.2920 0.6 6.5 Vela X-1
53.8963 -26.7343 2.9 34.5 59.3 1.2066 3.9 ------ UNKNOWN
115.0403 17.6177 2.1 44.6 -159.3 1.2991 5.7 ------ UNKNOWN
112.1557 -39.8965 0.1 26.6 -50.8 13.1591 81.2 ------ UNKNOWN
Post-slew image of 15-350 keV band
Time interval of the image:
62.444600 962.862300
# RAcent DECcent POSerr Theta Phi PeakCts SNR AngSep Name
# [deg] [deg] ['] [deg] [deg] [']
135.5847 -40.5550 1.4 17.9 -76.8 4.7486 8.0 2.6 Vela X-1
170.3489 -60.6358 1.3 40.8 -36.1 6.4562 8.7 1.2 Cen X-3
186.5801 -62.7257 6.2 48.4 -32.7 2.3977 1.9 3.4 GX 301-2
64.5997 -46.0598 4.1 34.8 67.3 3.9136 2.8 ------ UNKNOWN
257.1863 -81.8598 3.8 56.9 -2.0 7.8340 3.0 ------ UNKNOWN
170.9040 -41.6779 5.0 43.6 -64.2 6.2074 2.3 ------ UNKNOWN
Plot creation:
Tue Oct 25 11:31:43 EDT 2016