The accretion disk corona and disk atmosphere of 4U 1624-490 as viewed by the Chandra-HETGS

Abstract

We present a detailed spectral study (photoionization modelling and variability) of the "Big Dipper" 4U 1624-490 based on a -High Energy Transmission Gratings Spectrometer (HETGS) observation over the 76 ks binary orbit of 4U 1624-490. While the continuum spectrum can be modeled using a blackbody plus power-law, a slightly better fit is obtained using a single =2.25 power-law partially (71%) covered by a local absorber of column density N H, Local=8.1-0.6+0.7× 1022 cm-2. The data show a possible quasi-sinusoidal modulation with period 43-9+13 ks that might be due to changes in local obscuration. Photoionization modeling with the xstar code and variability studies of the observed strong Fe25 and Fe26 absorption lines point to a two-temperature plasma for their origin: a highly ionized component of ionization parameter hot ≈ 104.3 ergs cm s-1 (T 3.0× 106 K) associated with an extended accretion disk corona of radius R 3×1010 cm, and a less ionized more variable component of ≈ 103.4 ergs cm s-1 (T 1.0× 106 K) and ≈ 103.1 ergs cm s-1 (T 0.9× 106 K) coincident with the accretion disk rim. We use this, with the observed Fe25 and Fe26 absorption line variations (in wavelength, strength, and width) to construct a viewing geometry that is mapped to changes in plasma conditions over the 4U 1624-490 orbital period.