Journal
ASTROPHYSICAL JOURNAL
Volume 605, Issue 2, Pages 793-799Publisher
IOP PUBLISHING LTD
DOI: 10.1086/381087
Keywords
globular clusters : individual (NGC6624); X-rays : individual (4U 1820-303, Cygnus X-2); X-rays : ISM
Categories
Ask authors/readers for more resources
We searched for absorption lines of highly ionized O and Ne in the energy spectra of two low-mass X-ray binaries, 4U 1820 - 303 in the globular cluster NGC 6624 and Cyg X-2, observed with the Chandra LETG, and detected O VII, O VIII, and Ne IX absorption lines for 4U 1820 - 303. The equivalent width of the O VII Kalpha line was 1.19(-0.30)(+0.47) eV (90% errors), and the significance was 6.5 sigma. Absorption lines were not detected for Cyg X-2 with a 90% upper limit on the equivalent width of 1.06 eV for O VII Kalpha. The intrinsic line width was not resolved, and an upper limit corresponding to a velocity dispersion of b = 420 km s(-1) was obtained for the O VII Kalpha line of 4U 1820 - 303. The ion column densities were estimated from the curve-of-growth analysis, assuming several different values of b. The absorption lines observed in 4U 1820 - 303 are likely due to hot interstellar medium, because O will be fully photoionized if the absorbing column is located close to the binary system. The velocity dispersion is restricted to b = 200-420 km s(-1) from consistency between O VII Kalpha and Kbeta lines, the Ne/O abundance ratio, and H column density. The average temperature and the O VII density are estimated to be log T(K) = 6.2-6.3 and n(O) vII = (0.7-2.3) x 10(-6) cm(-3), respectively. The difference of O VII column densities for the two sources may be connected to the enhancement of the soft X-ray background (SXB) toward the Galactic bulge region. Using the polytrope model of hot gas to account for the SXB, we corrected for the density gradient and estimated the midplane O VII density at the solar neighborhood. The scale height of hot gas is then estimated using the active galactic nuclei (AGN) absorption lines. It is suggested that a significant portion of both the AGN absorption lines and the high-latitude SXB emission lines can be explained by the hot gas in our Galaxy.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available