Bibcode
Casares, J.; Baglio, M. C.; Borghese, A.; Ribas, I.; Monelli, M.; Hernanz, M.; Tauris, T. M.; Ferrigno, C.; Linares, M.; Bozzo, E.; Li, J.; Wilhelmi, E. De Oña; Wieringa, M.; Possenti, A.; Carrasco, L.; Masetti, N.; Papitto, A.; Belloni, T. M.; Campana, S.; Torres, D. F.; de Martino, D.; Israel, G. L.; Esposito, P.; D'Avanzo, P.; Zelati, F. Coti; Rea, N.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 471, Issue 3, p.2902-2916
Advertised on:
11
2017
Citations
27
Refereed citations
24
Description
In a search for the counterpart to the Fermi-LAT source 3FGL
J0838.8-2829, we performed a multiwavelength campaign: in the X-ray band
with Swift and XMM-Newton; in the infrared and optical with OAGH,
ESO-NTT and IAC80; and in the radio with ATCA observations. We also used
archival hard X-ray data obtained by INTEGRAL. We report on three X-ray
sources consistent with the position of the Fermi-LAT source. We confirm
the identification of the brightest object, RX J0838-2827, as a magnetic
cataclysmic variable that we recognize as an asynchronous system (not
associated with the Fermi-LAT source). RX J0838-2827 is extremely
variable in the X-ray and optical bands, and timing analysis reveals the
presence of several periodicities modulating its X-ray and optical
emission. The most evident modulations are interpreted as being caused
by the binary system orbital period of ˜1.64 h and the white dwarf
spin period of ˜1.47 h. A strong flux modulation at ˜15 h is
observed at all energy bands, consistent with the beat frequency between
spin and orbital periods. Optical spectra show prominent Hβ, He i
and He ii emission lines that are Doppler-modulated at the orbital
period and at the beat period. Therefore, RX J0838-2827 accretes through
a disc-less configuration and could be either a strongly asynchronous
polar or a rare example of a pre-polar system on its way to reaching
synchronism. Regarding the other two X-ray sources, XMM J083850.4-282759
showed a variable X-ray emission, with a powerful flare lasting for
˜600 s, similar to what is observed in transitional millisecond
pulsars during the subluminous disc state: this observation possibly
means that this source can be associated with the Fermi-LAT source.
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