**Table 1:** Equivalent widths of the most intensive emission lines from the local spot model (this paper), measured (i) with respect to the reflected continuum, $EW_{\rm {}refl}$ , and (ii) to the sum of the incident plus reflected continuum, $EW_{\rm {}total}$ . Only lines with EWs higher than 1 eV are listed.
Ion	Transition	Energy	$EW_{\rm {}refl}$	$EW_{\rm {}total}$
		[keV]	[eV]	[eV]
Fe XIX		0.118	1.08	0.48
C VI	${\rm Ly} {\alpha}$	0.367	1.72	0.75
N VII	${\rm Ly} {\alpha}$	0.500	1.01	0.44
O VII	f	0.568	2.59	1.11
O VIII	${\rm Ly} {\alpha}$	0.653	13.32	5.69
Fe XVII		0.729	2.22	0.94
Ne X	${\rm Ly} {\alpha}$	1.020	4.54	1.91
Fe XXIV		1.110	4.97	2.07
Fe XXVI	${\rm Ba} {\alpha}$	1.288	2.86	1.18
Mg XII	${\rm Ly} {\alpha}$	1.472	4.50	1.86
Fe XXIV		1.495	1.48	0.61
Fe XXVI	${\rm Ba} {\beta}$	1.739	1.26	0.51
Si XIII	f	1.853	1.23	0.50
Si XIV	${\rm Ly} {\alpha}$	1.999	12.02	4.95
S XV	f	2.446	1.27	0.52
S XV	${\rm Ly} {\alpha}$	2.611	13.22	5.35
Fe	${{\rm K} {\alpha}}$	6.400	1.88	0.76
Fe XXV	i	6.630	48.69	19.75
Fe XXV	f	6.667	37.24	15.10
Fe XXV	f	6.682	49.33	20.00
Fe XXV	r	6.700	50.07	20.30
Fe XXVI	${\rm Ly} {\alpha}$	6.957	171.9	69.71

Two forbidden Fe XXV lines are transitions $2\rm p$ $^3\rm P_1^o \rightarrow 1s^2$ $^1\rm S_0$ and $\rm 2p$ $^3\rm P_2^o \rightarrow 1s^2$ $^1\rm S_0$ , Fe XXV resonance line is the transition $2\rm p$ $^1\rm P_1^o \rightarrow 1s^2$ $^1\rm S_0$ . Two soft X-ray Fe XXIV lines are transitions $3\rm d$ $^2\rm D + 3s$ $^2\rm S \rightarrow 2p$ $^2\rm P^o$ and $4\rm d$ $^2\rm D + 4s$ $^2\rm S \rightarrow 2p$ $^2\rm P^o$ , correspondingly.

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