--------------------------------------------------------------------------- --------------------------------------------------------------------------- mo = powerlaw[1] + zgauss[2] + zgauss[3] + zgauss[4] + zgauss[5] + zgauss[6] + zgauss[7] Model Fit Model Component Parameter Unit Value par par comp 1 1 1 powerlaw PhoIndex 2.840 +/- 0.3747 2 2 1 powerlaw norm 64.48 +/- 39.74 3 3 2 zgauss LineE keV 1.739 frozen 4 4 2 zgauss Sigma keV 2.0400E-03 frozen 5 5 2 zgauss Redshift 0. frozen 6 6 2 zgauss norm 0.1470 frozen 7 7 3 zgauss LineE keV 1.835 frozen 8 8 3 zgauss Sigma keV 3.6202E-03 frozen 9 9 3 zgauss Redshift 0. frozen 10 10 3 zgauss norm 0.1566 frozen 11 11 4 zgauss LineE keV 1.775 frozen 12 12 4 zgauss Sigma keV 3.5400E-03 frozen 13 13 4 zgauss Redshift 0. frozen 14 14 4 zgauss norm 0.1228 frozen 15 15 5 zgauss LineE keV 1.486 frozen 16 16 5 zgauss Sigma keV 1.5232E-03 frozen 17 17 5 zgauss Redshift 0. frozen 18 18 5 zgauss norm 7.1571E-02 frozen 19 19 6 zgauss LineE keV 2.618 frozen 20 20 6 zgauss Sigma keV 3.0128E-03 frozen 21 21 6 zgauss Redshift 0. frozen 22 22 6 zgauss norm 4.6660E-02 frozen 23 23 7 zgauss LineE keV 6.391 +/- 0.7944E-02 24 24 7 zgauss Sigma keV 2.4820E-02 +/- 0.9490E-02 25 25 7 zgauss Redshift 0. frozen 26 26 7 zgauss norm 3.4080E-02 +/- 0.5543E-02 --------------------------------------------------------------------------- --------------------------------------------------------------------------- Chi-Squared = 71.00691 using 81 PHA bins. Reduced chi-squared = 0.9343015 for 76 degrees of freedom Null hypothesis probability = 0.202