\begin{table}%t6 \caption{\label{table:model_2_diskline}Best-fit values of the parameters obtained fitting the emission features with relativistic smeared lines (diskline in XSPEC). The Fe-K$\alpha$ feature is modelled with two diskline components.} %\centerline {\begin{tabular}{l c c c } \hline\hline Parameters & Aver. spectrum& Spectrum 1+3& Spectrum 2\\ \hline \noalign{\smallskip} $N_{\rm H}$ (10$^{22}$ cm$^{-2}$)& $0.734^{\rm +0.002}_{-0.004}$& 0.734 (fixed) & 0.734 (fixed) \\ &\\ $kT_{\rm BB}$ (keV) & $1.801^{\rm +0.013}_{-0.009}$& $1.784^{\rm +0.025}_{-0.013}$& $1.820^{\rm +0.012}_{-0.011}$\\ $N_{\rm BB}$ (10$^{-1}$) & $1.043^{\rm +0.007}_{-0.011}$& $0.920^{\rm +0.013}_{-0.020}$& $1.123^{\rm +0.008}_{-0.010}$\\ &\\ $kT_{\rm DIS~KBB}$ (keV) & $1.06 \pm 0.02$& $1.08^{\rm +0.03}_{-0.02}$& $1.056^{\rm +0.011}_{-0.017} $\\ $N_{\rm DIS~KBB}$ & $201^{\rm +5}_{-14}$& $210^{\rm +14}_{-20}$& $186^{\rm +10}_{-5} $\\ &\\ $E_{1~{\rm keV}}$ (keV) & $1.052^{\rm +0.006}_{-0.005}$& $1.032^{\rm +0.009}_{-0.017}$ & $1.062^{\rm +0.007}_{-0.009}$ \\ $\sigma_{1~{\rm keV}}$ (eV) & $86^{\rm +13}_{-6}$ & $120^{\rm +20}_{-8}$ & $66^{\rm +10}_{-8}$ \\ $I_{1~{\rm keV}}$ & $24^{\rm +3}_{-2}$ & $41^{\rm +7}_{-4}$ & $17.0^{\rm +2.1}_{-1.4}$ \\ Equiv. width (eV) & $22 \pm 2$ & $31 \pm 3$ & $17 \pm 2$ \\ &&\\ $\beta$ emiss. index& $-2.2 \pm 0.2 $ & $-2.17^{\rm +0.14}_{-0.19} $ & $-2.10^{\rm +0.12}_{-0.19}$ \\ $R_{\rm in}$ ($R_{\rm g}$) & $9^{\rm +17}_{-3}$ & $6^{\rm +14}$ & $9^{\rm +20}_{-3}$ \\ $R_{\rm out}$ ($R_{\rm g}$) & $3600^{\rm +18000}_{-1900}$& 3600 (fixed)& 3600 (fixed) \\ $\theta$ (degrees) & $43^{\rm +4}_{-3}$ & 43 (fixed)& 43 (fixed)\\ &\\ $E_{{\rm S} \; {\rm XVI}}$ (keV) & 2.62 (fixed) & 2.62 (fixed) & 2.62 (fixed) \\ %($10^{-3}$ ph cm$^{-2}$ s$^{-1}$) $I_{{\rm S \; XVI}}$ & $2.0 \pm 0.5$ & $3.4^{\rm +1.0}_{-1.2}$ & $0.7 \pm 0.6$ \\ Equiv. width (eV) & $5 \pm 3$ & $8 \pm 4 $ & $2^{\rm +3}_{-2} $ \\ &\\ $E_{{\rm Ar} \; {\rm XVIII}}$ (keV) & $3.30^{\rm +0.04}_{-0.03}$ & $3.32 \pm 0.05$ & $3.29 \pm 0.04$ \\ $I_{{\rm Ar \; XVIII}}$ & $3.2^{\rm +0.5}_{-0.8}$ & $3.7^{\rm +0.9}_{-1.2}$ & $2.6^{\rm +0.6}_{-0.7} $ \\ Equiv. width (eV) & $10^{\rm +4}_{-10}$ & $12^{\rm +6}_{-5}$ & $8 ^{\rm +5}_{-3}$ \\ &\\ $E_{{\rm Ca} \; {\rm XIX}}$ (keV) & $3.896 \pm 0.012$ & $3.89^{\rm +0.03}_{-0.04}$ & $3.90 \pm 0.03$ \\ $I_{{\rm Ca} \; {\rm XIX}}$ & $3.4^{\rm +0.5}_{-0.7}$ & $3.6^{\rm +1.0}_{-1.1}$ & $3.0 \pm 0.7$ \\ Equiv. width (eV) & $14^{\rm +4}_{-8}$ & $15^{\rm +5}_{-6}$ & $12^{\rm +3}_{-6}$ \\ &\\ E$_{{\rm Fe \; XXV}}$ (keV) & 6.70 (fixed) & 6.70 (fixed) & 6.70 (fixed) \\ $I_{{\rm Fe \; XXV}}$ & $4.2^{\rm +0.4}_{-0.9}$ & $4.9 \pm 1.3$ & $3.9^{\rm +1.0}_{-0.9}$ \\ Equiv. width (eV) & $40 \pm 10$ & $60^{\rm +20}_{-30}$ & $40^{\rm +10}_{-20}$ \\ &\\ $E_{{\rm Fe} \; {\rm XXVI}}$ (keV) & 6.97 (fixed) & 6.97 (fixed) & 6.97 (fixed) \\ $I_{{\rm Fe} \; {\rm XXVI}}$ & $1.6^{\rm +0.6}_{-0.3}$ & $0.9^{\rm +0.9}_{-0.9}$ & $2.1^{\rm +0.6}_{-0.7}$ \\ Equiv. width (eV) & $17^{\rm +9}_{-17}$ & $10^{\rm +20}_{-10}$ & $20 \pm 10$ \\ &\\ $\chi_{\rm red}^2({\rm d.o.f.})$ & $1.49(268)$ & $1.25(271)$ & $1.30(271)$ \\\noalign{\smallskip} \hline \end{tabular}} \par Note. See Table~\ref{table:model}. \end{table}