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Published byAbel Bradley Modified over 8 years ago
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Multi-wavelength observations of PSR B1259-63 during its 2010 periastron passage Masha Chernyakova(DIAS), Andrii Neronov (ISDC), Aous Abdo (GMU), Damien Parent (GMU), Simon Johnston (ATNF), Yasunobu Uchiyama (SLAC)
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PSR B1259-63 system Pulsar: P=47.76 ms L SD =8.3 × 10 35 erg s −1 Orbit Period ≈ 3.4 yr Eccentricity e≈ 0.87 Distance 2.3 ± 0.4 kpc ~10 13 cm ~10 14 cm
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PSR B1259-63 system Pulsar: P=47.76 ms L SD =8.3 × 10 35 erg s −1 Orbit Period ≈ 3.4 yr Eccentricity e≈ 0.87 Distance 2.3 ± 0.4 kpc pulsar wind stellar wind Bow shock "Laboratory" for the study of the properties of pulsar winds
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2010 Multi-wavelength Campaign
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PSR B1259-63: previous observations Gamma-ray emission from the system was observed in 2004 and 2007 by HESS in the TeV energy range. Similarly to large scale Pulsar Wind Nebulae (PWN), commonly considered contributions to the spectrum are – synchrotron emission – inverse Compton emission – Bremsstrahlung by high-energy electrons. Electrons/positrons could be – accelerated at the bow-shock (similarly to the termination shock of the pulsar wind in PWNe) – injected directly from the pulsar wind It was not clear a-priori, if Fermi sensitivity is enough to detect the source at periastron. Chernyakova, Neronov, Ribordy 2009
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PSR B1259-63 2010-2011 pre-periastron emission The source was first detected ~20d before the periastron, during the first passage through the Be star disk. Spectrum was relatively hard, with photon index Γ≈2. Source characteristics are consistent with the IC model. Chernyakova, Neronov, Ribordy 2009 Abdo et al. 2011
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PSR B1259-63 2010-2011 periastron emission Maximum of GeV lightcurve near the periastron was first predicted by Khangulyan et al. 2007. Abdo et al. 2011 Khangulyan et al. 2007
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PSR B1259-63 2010-2011 post-periastron flare A strong flare with the flux increase by a factor of ~10 was detected ~30d post-periastron. The flare lasted for ~1 month. The spectrum of the flare was much softer than the pre-periastron spectrum, with photon index Γ≈3. Abdo et al. 2011Chernyakova, Neronov, Ribordy 2009
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PSR B1259-63 2010-2011 post-periastron flare A strong flare with the flux increase by a factor of ~10 was detected ~30d post-periastron. The flare lasted for ~1 month. The spectrum of the flare was much softer than the pre-periastron spectrum, with photon index Γ≈3. Abdo et al. 2011
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PSR B1259-63 2010-2011 post-periastron flare radio gamma What is the origin of the strong soft flare?
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PSR B1259-63 2010-2011 post-periastron flare The flare observed by Fermi was, most probably, a separate spectral component: – onset time mismatch with the radio and X-ray post-periastron flare; – assymetry between the pre- and post-periastron flares. Gamma-ray luminosity of the source during the flare was ~100 % of the spin-down luminosity of the pulsar. X-to-gamma-ray spectrum was very hard, with Γ≈1.5, much harder than the gamma-ray spectrum. The additional component had sharply peaked spectrum.
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Physical mechanism of gamma-ray emisison Inverse Compton emission from a sharply peaked electron distribution? E e ≈1 GeV? Why would it appear as a flare and not as a persistent emission component with maximum around periastron? Khangulyan et al. 2011 Unshocked pulsar wind with bulk Lorentz factor 10 3 -10 4 ?
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Inverse Compton emission from a sharply peaked electron distribution? E e ≈1 GeV? Unshocked pulsar wind with bulk Lorentz factor 10 3 ? Synchrotron emission from a sharply peaked electron distribution? E e ≈10 15 eV? An "exotic" scenario, but not ruled out…. Physical mechanism of gamma-ray emisison Direct injection from pulsar wind with bulk Lorentz factor 10 9 ?
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Inverse Compton emission from a sharply peaked electron distribution? E e ≈1 GeV? Unshocked pulsar wind with bulk Lorentz factor 10 3 ? Synchrotron emission from a sharply peaked electron distribution? E e ≈10 15 eV? Enhanced Bremmstrahlung emission from the pulsar passage through the "debris" of the Be star disk? Physical mechanism of gamma-ray emisison Direct injection from pulsar wind with bulk Lorentz factor 10 9 ?
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Summary – PSRB 1259-63, a young pulsar in a binary system with a massive star was detected for the first time in the 0.1-10 GeV band by Fermi/LAT during the 2010-2011 periastron passage. – Pre- and post-periastron emission properties are significantly different. A strong flare was observed ~1 month after the periastron, with the duration of ~1 month. – Gamma-ray luminosity reached ~100 % of spin-down luminosity of the pulsar during the flare. – Gamma-ray lflare was delayed compared to the X-ray and radio band flare associated to the passage of the pulsar through the equatorial disk of Be star. – Physical mechanism of production of the gamma-ray flare is still not clear.
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