XMM-Newton spectroscopy of the accreting magnetar candidate 4U0114+65

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Título: XMM-Newton spectroscopy of the accreting magnetar candidate 4U0114+65
Autor/es: Sanjurjo-Ferrín, Graciela | Torrejon, Jose M. | Postnov, Konstantin | Oskinova, Lidia M. | Rodes Roca, José Joaquín | Bernabeu, Guillermo
Grupo/s de investigación o GITE: Astronomía y Astrofísica
Centro, Departamento o Servicio: Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal | Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías
Palabras clave: X-rays: binaries | Stars: winds, outflows | Pulsars: individual: 4U0114+65
Área/s de conocimiento: Física Aplicada
Fecha de publicación: 26-oct-2017
Editor: EDP Sciences
Cita bibliográfica: Astronomy & Astrophysics. 2017, 606: A145. doi:10.1051/0004-6361/201630119
Resumen: Aims. 4U0114+65 is one of the slowest known X-ray pulsars. We present an analysis of a pointed observation by the XMM-Newton X-ray telescope in order to study the nature of the X-ray pulsations and the accretion process, and to diagnose the physical properties of the donor’s stellar wind. Methods. We analysed the energy-resolved light curve and the time-resolved X-ray spectra provided by the EPIC cameras on board XMM-Newton. We also analysed the first high-resolution spectrum of this source provided by the Reflection Grating Spectrometer. Results. An X-ray pulse of 9350 ± 160 s was measured. Comparison with previous measurements confirms the secular spin up of this source. We successfully fit the pulse-phase-resolved spectra with Comptonisation models. These models imply a very small (r ~ 3 km) and hot (kT ~ 2 − 3 keV) emitting region and therefore point to a hot spot over the neutron star (NS) surface as the most reliable explanation for the X-ray pulse. The long NS spin period, the spin-up rate, and persistent X-ray emission can be explained within the theory of quasi-spherical settling accretion, which may indicate that the magnetic field is in the magnetar range. Thus, 4U 0114+65 could be a wind-accreting magnetar. We also observed two episodes of low luminosity. The first was only observed in the low-energy light curve and can be explained as an absorption by a large over-dense structure in the wind of the B1 supergiant donor. The second episode, which was deeper and affected all energies, may be due to temporal cessation of accretion onto one magnetic pole caused by non-spherical matter capture from the structured stellar wind. The light curve displays two types of dips that are clearly seen during the high-flux intervals. The short dips, with durations of tens of seconds, are produced through absorption by wind clumps. The long dips, in turn, seem to be associated with the rarefied interclump medium. From the analysis of the X-ray spectra, we found evidence of emission lines in the X-ray photoionised wind of the B1Ia donor. The Fe Kα line was found to be highly variable and much weaker than in other X-ray binaries with supergiant donors. The degree of wind clumping, measured through the covering fraction, was found to be much lower than in supergiant donor stars with earlier spectral types. Conclusions. The XMM-Newton spectroscopy provided further support for the magnetar nature of the neutron star in 4U0114+65. The light curve presents dips that can be associated with clumps and the interclump medium in the stellar wind of the mass donor.
Patrocinador/es: This work has been funded by the research grants ESP2014-53672-C3-3P and 50 OR 1508 (LO).
URI: http://hdl.handle.net/10045/70632
ISSN: 0004-6361 (Print) | 1432-0746 (Online)
DOI: 10.1051/0004-6361/201630119
Idioma: eng
Tipo: info:eu-repo/semantics/article
Derechos: © ESO 2017
Revisión científica: si
Versión del editor: http://dx.doi.org/10.1051/0004-6361/201630119
Aparece en las colecciones:INV - Astronomía y Astrofísica - Artículos de Revistas

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