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تسجيل مستخدم جديدeROSITA detection of flares from the Be/X-ray binary A0538-66
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In 2018, XMM-Newton observed the awakening in X-rays of the Be/X-ray binary (Be/XRB) A0538-66. It showed bright and fast flares close to periastron with properties that had never been observed in other Be/XRBs before. We report the results from the observations of A0538-66 collected during the first all-sky survey of eROSITA, an X-ray telescope (0.2-10 keV) on board the Spektrum-Roentgen-Gamma (SRG) satellite. eROSITA caught two flares within one orbital cycle at orbital phases $phi = 0.29$ and $phi = 0.93$ (where $phi=0$ corresponds to periastron), with peak luminosities of $sim 2-4 times 10^{36}$ erg/s (0.2-10 keV) and durations of $42 leq Delta t_{rm fl} leq 5.7times 10^4$ s. The flare observed at $phi approx 0.29$ shows that the neutron star can accrete considerably far from periastron, although it is expected to be outside of the circumstellar disk, thus providing important new information about the plasma environment surrounding the binary system. We also report the results from the photometric monitoring of A0538-66 carried out with the REM, OGLE, and MACHO telescopes from January 1993 until March 2020. We found that the two sharp peaks that characterize the orbital modulation in the optical occur asymmetrically in the orbit, relative to the position of the donor star.
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A0538-66 is a Be/X-ray binary (Be/XRB) hosting a 69 ms pulsar. It emitted bright X-ray outbursts with peak luminosity up to $sim 10^{39}$ erg/s during the first years after its discovery in 1977. Since then, it was always seen in quiescence or during
outbursts with $L_x lesssim 4 times 10^{37}$ erg/s. In 2018 we carried out XMM-Newton observations of A0538-66 during three consecutive orbits when the pulsar was close to periastron. In the first two observations we discovered a remarkable variability, with flares of typical durations between $sim$2-50 s and peak luminosities up to $sim 4times 10^{38}$ erg/s (0.2-10 keV). Between the flares the luminosity was $sim 2times 10^{35}$ erg/s. The flares were absent in the third observation, during which A0538-66 had a steady luminosity of $2times 10^{34}$ erg/s. In all observations, the X-ray spectra consist of a softer component, well described by an absorbed power law with photon index $Gamma_1approx 2-4$ and $N_Happrox 10^{21}$ cm$^{-2}$, plus a harder power-law component ($Gamma_2approx 0-0.5$) dominating above $sim$2 keV. The softer component shows larger flux variations than the harder one, and a moderate hardening correlated with the luminosity. The fast flaring activity seen in these observations was never observed before in A0538-66, nor, to our best knowledge, in other Be/XRBs. We explore the possibility that during our observations the source was accreting in a regime of nearly spherically symmetric inflow. In this case, an atmosphere can form around the neutron star magnetosphere and the observed variability can be explained by transitions between the accretion and supersonic propeller regimes.
We present XMM-Newton observations of the recurrent Be/X-ray transient A0538-66, situated in the Large Magellanic Cloud, in the quiescent state. Despite a very low luminosity state of (5-8)E33 ergs/s in the range 0.3-10 keV, the source is clearly det
ected up to ~8 keV. and can be fitted using either a power law with photon index alpha=1.9+-0.3 or a bremsstrahlung spectrum with kT=3.9+3.9-1.7 keV. The spectral analysis confirms that the off-state spectrum is hard without requiring any soft component, contrary to the majority of neutron stars observed in quiescence up to now.
Context. The Small Magellanic Cloud (SMC) is hosting many known high-mass X-ray binaries, all but one (SMC X-1) having Be companion stars. Through the calibration and verification phase of eROSITA on board the SRG spacecraft, the Be/X-ray binary XMMU
J010429.4-723136 was in the field of view during observations of the supernova remnant 1E0102.2-7219, used as calibration standard. Aims. We report here a time and spectral analysis of XMMU J010429.4-723136, based on two eROSITA observations of the field, performed on 2019 November 7-9. We also reanalyse the OGLE light curve for that source, in order to determine the orbital period. Methods. The search for pulsations (from the X-ray data) and for the orbital period (from the OGLE data) is done via Lomb-Scargle periodogram analysis. X-ray spectral parameters and fluxes are retrieved from the best-fit model. Results. We detected for the first time, the pulsations of XMMU J010429.4-723136 at a period of 164 s, and therefore designate the source as SXP 164. From the spectral fitting, we derive a source flux of 1x10e-12 erg s-1 cm-2 for both observations, corresponding to a luminosity of 4x10e35 erg s-1 at the distance of the SMC. Furthermore, reanalysing the OGLE light curve including the latest observations, we found a significant periodic signal at 22.3d likely being the orbital period, which is shorter than the previously reported values.
In 1981, the Be/X-ray binary (Be/XRB) A0538-66 showed outbursts characterized by high peak luminosities in the X-ray and optical bands. The optical outbursts were qualitatively explained as X-ray reprocessing in a gas cloud surrounding the binary sys
tem. Since then, further important information about A0538-66 have been obtained, and sophisticated photoionization codes have been developed to calculate the radiation emerging from a gas nebula illuminated by a central X-ray source. In the light of the new information and tools available, we studied again the enhanced optical emission displayed by A0538-66 to understand the mechanisms responsible for these unique events among the class of Be/XRBs. We performed about 10^5 simulations of a gas envelope photoionized by an X-ray source. We assumed for the shape of the gas cloud either a sphere or a circumstellar disc observed edge-on. We studied the effects of varying the main properties of the envelope and the influence of different input X-ray spectra on the optical/UV emission emerging from the photoionized cloud. We compared the computed spectra with the IUE spectrum and photometric UBV measurements obtained during the outburst of 29 April 1981. We also explored the role played by the X-ray heating of the surface of the donor star irradiated by the X-ray emission of the neutron star (NS). We found that reprocessing in a spherical cloud with a shallow radial density distribution can reproduce the optical/UV emission. To our knowledge, this configuration has never been observed either in A0538-66 during other epochs or in other Be/XRBs. We found, contrary to the case of most other Be/XRBs, that the optical/UV radiation produced by the X-ray heating of the surface of the donor star irradiated by the NS is non-negligible, due to the particular orbital parameters of this system that bring the NS very close to its companion.
Be X-ray binaries are among the best known transient high-energy sources. Their outbursts are commonly classified into a simple scheme of normal and giant outbursts, but a closer look shows that actual outbursts do not always follow this simple schem
e. Recent data show a variety of properties, like pre-flares, shifts of the outburst peaks with respect to the periastron, multi-peaked outbursts etc. We present results from a systematic study of a large number of outbursts monitored by various space missions, comparing outburst properties and their relation to system parameters and current theoretical understanding.
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