6533b871fe1ef96bd12d1062

RESEARCH PRODUCT

On the soft excess in the x-ray spectrum of circinus X-1: Revisitation of the distance to circinus X-1

Luciano BurderiR. IariaF. FronteraT. Di SalvoM. Van Der KlisR. P. FenderN. R. RobbaM. Spanò

subject

PhysicsElectron densityAccretionAbsorption spectroscopyStars: Individual: Constellation Name: Circinus X-1Stars: individual (Circinus X-1)Accretion; Accretion Disks; Stars: Individual: Constellation Name: Circinus X-1; Stars: Neutron; X-Rays: Binaries; X-Rays: StarsX-rayAstronomy and Astrophysicsindividual (Circinus X-1); Stars: neutron; X-rays: binaries; X-rays: stars; Nuclear and High Energy Physics; Space and Planetary Science [Accretion accretion disks; Stars]AstrophysicsCompact starX-rays: binarieSpectral lineStars: neutronX-Rays: BinariesAccretion accretion diskSpace and Planetary ScienceIonizationAccretion DisksX-Rays: StarsCircinusX-rays: starAbsorption (logic)Nuclear and High Energy Physic

description

We report on a 300 ks BeppoSAX (0.12-200 keV) observation of Circinus X-1 (Cir X-1) at phases between 0.62 and 0.84 and on a 90 ks BeppoSAX observation of Cir X-1 at phases 0.11-0.16. Using the canonical model adopted until now to fit the energy spectrum of this source, large residuals appear below 1 keV. These are well fitted using an equivalent hydrogen column of 0.66¿1022 cm-2, adding absorption edges of O VII, O VIII, and Ne IX in the spectra extracted from the observation at phases 0.62-0.84 and adding absorption edges of O VII, O VIII, Mg XI, and Mg XII and absorption lines of O VIII and Mg XII in the spectra extracted from the observation at phases 0.11-0.16. During the observation at phases 0.62-0.84 the electron density associated with the ionized matter is ~1013 cm-3, remaining quite constant going away from the compact object. During the observation at phases 0.11-0.16, the electron density profile varies along the distance going from ~6¿1013 cm-3 at ~1011 cm to ~9¿1010 cm-3 at ~1013 cm. The equivalent hydrogen column toward Cir X-1 is 3 times lower than the value obtained from previous models. This low value would imply that Cir X-1 is at a distance of 4.1 kpc.

yearjournalcountryeditionlanguage
2005-01-20
10.1086/426422http://hdl.handle.net/10447/228738