Table 2. Open in new tab Results of the... | Oxford Academic

Table 2.

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Results of the fit of the burst profile for the XMM–Newton and the NuSTAR epoch. The starting time corresponds to MJD 58543.0 for XMM–Newton and to MJD 58544.6 for NuSTAR.

Instrument and energy	t_rise	t_peak	t_decay	t_peak
	(min)	(min)	(min)	(MJD)
XMM (0.3–3 keV)	316 ± 34	107 ± 3	262 ± 32	58544.06
XMM (3–10 keV)	159 ± 29	93 ± 6	193 ± 37	58544.06
NuSTAR (3–10 keV)	225 ± 42	773 ± 10	123 ± 17	58545.14
NuSTAR (10–79 keV)	127 ± 41	771 ± 16	86 ± 18	58545.14

Instrument and energy	t_rise	t_peak	t_decay	t_peak
	(min)	(min)	(min)	(MJD)
XMM (0.3–3 keV)	316 ± 34	107 ± 3	262 ± 32	58544.06
XMM (3–10 keV)	159 ± 29	93 ± 6	193 ± 37	58544.06
NuSTAR (3–10 keV)	225 ± 42	773 ± 10	123 ± 17	58545.14
NuSTAR (10–79 keV)	127 ± 41	771 ± 16	86 ± 18	58545.14

Table 2.

Open in new tab

Results of the fit of the burst profile for the XMM–Newton and the NuSTAR epoch. The starting time corresponds to MJD 58543.0 for XMM–Newton and to MJD 58544.6 for NuSTAR.

Instrument and energy	t_rise	t_peak	t_decay	t_peak
	(min)	(min)	(min)	(MJD)
XMM (0.3–3 keV)	316 ± 34	107 ± 3	262 ± 32	58544.06
XMM (3–10 keV)	159 ± 29	93 ± 6	193 ± 37	58544.06
NuSTAR (3–10 keV)	225 ± 42	773 ± 10	123 ± 17	58545.14
NuSTAR (10–79 keV)	127 ± 41	771 ± 16	86 ± 18	58545.14

Instrument and energy	t_rise	t_peak	t_decay	t_peak
	(min)	(min)	(min)	(MJD)
XMM (0.3–3 keV)	316 ± 34	107 ± 3	262 ± 32	58544.06
XMM (3–10 keV)	159 ± 29	93 ± 6	193 ± 37	58544.06
NuSTAR (3–10 keV)	225 ± 42	773 ± 10	123 ± 17	58545.14
NuSTAR (10–79 keV)	127 ± 41	771 ± 16	86 ± 18	58545.14