Table 7: Spectral-fit parameters for Ph III INTEGRAL, XMM-Newton, RXTE-PCA and RXTE-HEXTE fits (see Sect. 3.3.2).
XMM-Newton+RXTE-PCA+HEXTE+
INTEGRAL 0.5-270 keV
kT $0.23 \pm 0.02$
FkT $(2.82 \pm 0.64) \times 10^{-5}$
$\Gamma_{\rm {I}}\ (0.5 {\rm ~keV} - E_{\rm {break}}) $ ${\bf -}0.55 \pm 0.14$
$E_{\rm {break}}$ $4.92 \pm 0.11$
$\Gamma_{\rm {II}}\ (E_{\rm {break}} - 270 {\rm ~keV}) $ $1.77 \pm 0.09$
F $(2.05 \pm 0.52) \times 10^{-5}$
$\Gamma_{\rm {III}}\ (0.5 - 270 {\rm ~keV}) $ $0.02 \pm 0.50$
$F_{20-150~\rm {keV}}$ $(0.86 \pm 0.22) \times 10^{-11}$
$\chi^2_{\rm r}$  (d.o.f.) 0.90 (29)
$F_{0.5-2~\rm {keV}}$ (erg cm-2 s-1) $(0.19 \pm 0.07) \times 10^{-11}$
$F_{2-10~\rm {keV}}$ (erg cm-2 s-1) $(0.23 \pm 0.07) \times 10^{-11}$
$F_{20-150~\rm {keV}}$ (erg cm-2 s-1) $(1.54 \pm 0.18) \times 10^{-11}$
$F_{20-270~\rm {keV}}$ (erg cm-2 s-1) $(3.74 \pm 0.65) \times 10^{-11}$
INTEGRAL 20-270 keV
$\Gamma_{\rm {INTEGRAL}}$ $1.09 \pm 0.16$
$F_{20-150~\rm {keV}}$ (erg cm-2 s-1) $(1.53 \pm 0.12) \times 10^{-11}$
$\chi^2_{\rm r}$  (d.o.f.) 1.15 (5)
$F_{20-270~\rm {keV}}$ (erg cm-2 s-1) $(2.81 \pm 0.42) \times 10^{-11}$
The $N_{{\rm H}}$ is fixed to $1.47 \times 10^{22}$ cm-2. kT and $E_{\rm {break}}$ are in units keV. F0 is the normalization at 1 keV in units ph cm-2 s-1keV-1. The integrated fluxed are in units erg cm-2 s-1.

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