Magnetars are the most strongly magnetized neutron stars, and one of the most promising targets for X-ray polarimetric measurements. We present here the first Imaging X-ray Polarimetry Explorer observation of the magnetar 1RXS J170849.0-400910, jointly analyzed with a new Swift observation and archival NICER data. The total (energy- and phase-integrated) emission in the 2-8 keV energy range is linerarly polarized, at a similar to 35% level. The phase-averaged polarization signal shows a marked increase with energy, ranging from similar to 20% at 2-3 keV up to similar to 80% at 6-8 keV, while the polarization angle remains constant. This indicates that radiation is mostly polarized in a single direction. The spectrum is well reproduced by a combination of either two thermal (blackbody) components or a blackbody and a power law. Both the polarization degree and angle also show a variation with the spin phase, and the former is almost anticorrelated with the source counts in the 2-8 and 2-4 keV bands. We discuss the possible implications and interpretations, based on a joint analysis of the spectral, polarization, and pulsation properties of the source. A scenario in which the surface temperature is not homogeneous, with a hotter cap covered by a gaseous atmosphere and a warmer region in a condensed state, provides a satisfactory description of both the phase- and energy-dependent spectro-polarimetric data. The (comparatively) small size of the two emitting regions, required to explain the observed pulsations, does not allow to reach a robust conclusion about the presence of vacuum birefringence effects.

Zane, S., Taverna, R., Gonzalez-Caniulef, D., Muleri, F., Turolla, R., Heyl, J., et al. (2023). A strong X-ray polarization signal from the magnetar 1RXS J170849.0-400910. THE ASTROPHYSICAL JOURNAL LETTERS, 944(2) [10.3847/2041-8213/acb703].

A strong X-ray polarization signal from the magnetar 1RXS J170849.0-400910

Rankin, J;Fabiani, S;Tombesi, F;
2023-01-01

Abstract

Magnetars are the most strongly magnetized neutron stars, and one of the most promising targets for X-ray polarimetric measurements. We present here the first Imaging X-ray Polarimetry Explorer observation of the magnetar 1RXS J170849.0-400910, jointly analyzed with a new Swift observation and archival NICER data. The total (energy- and phase-integrated) emission in the 2-8 keV energy range is linerarly polarized, at a similar to 35% level. The phase-averaged polarization signal shows a marked increase with energy, ranging from similar to 20% at 2-3 keV up to similar to 80% at 6-8 keV, while the polarization angle remains constant. This indicates that radiation is mostly polarized in a single direction. The spectrum is well reproduced by a combination of either two thermal (blackbody) components or a blackbody and a power law. Both the polarization degree and angle also show a variation with the spin phase, and the former is almost anticorrelated with the source counts in the 2-8 and 2-4 keV bands. We discuss the possible implications and interpretations, based on a joint analysis of the spectral, polarization, and pulsation properties of the source. A scenario in which the surface temperature is not homogeneous, with a hotter cap covered by a gaseous atmosphere and a warmer region in a condensed state, provides a satisfactory description of both the phase- and energy-dependent spectro-polarimetric data. The (comparatively) small size of the two emitting regions, required to explain the observed pulsations, does not allow to reach a robust conclusion about the presence of vacuum birefringence effects.
2023
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore FIS/05
English
Con Impact Factor ISI
Zane, S., Taverna, R., Gonzalez-Caniulef, D., Muleri, F., Turolla, R., Heyl, J., et al. (2023). A strong X-ray polarization signal from the magnetar 1RXS J170849.0-400910. THE ASTROPHYSICAL JOURNAL LETTERS, 944(2) [10.3847/2041-8213/acb703].
Zane, S; Taverna, R; Gonzalez-Caniulef, D; Muleri, F; Turolla, R; Heyl, J; Uchiyama, K; Ng, M; Tamagawa, T; Caiazzo, I; Di Lalla, N; Marshall, H; Bach...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/339507
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