Weak secondary cyclotron line in eclipsing High Mass X-ray Binary Cen X-3
Abstract
We report the time resolved spectroscopy result from two observations of Cen X-3, over one binary orbit with ASTROSAT and two binary orbit with NuSTAR. NuSTAR covered two intensity states where the light curve showed transition in count rate from first to second binary orbit by a factor of 3. A phenomenological model comprising of partially absorbed powerlaw with smoothed high energy cutoff, cyclotron absorption 24 keV and 6.4 keV iron emission gave good fit for ASTROSAT observation. NuSTAR spectra required two additional emission components, a broad one 5.7 keV and a narrow one 6.9 keV. A weak secondary absorption feature at 11.6 keV and 14.5 keV was seen in the residuals of the spectral fit for ASTROSAT and NuSTAR data respectively. The secondary absorption energy showed no correlation with the cutoff energy. Its strength varied within 0.1 to 0.6 keV with its width 1.6 keV. Its energy and optical depth showed linear positive correlation with the fundamental cyclotron line energy and depth respectively. The cyclotron line energy showed anti-correlation to flux described by a powerlaw with negative index and the secondary absorption also showed similar trend to flux. Depth of secondary absorption was 45 \% and centroid energy was 54 \% of fundamental. Depth and energy ratio of secondary to fundamental lied within 2σ deviation from 0.5. We suggest this secondary absorption to be a redshifted dipolar cyclotron resonance feature exhibiting sub-harmonic behaviour.
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