The Fermi-LAT detection of magnetar-like pulsar PSR J1846−0258 at high-energy gamma-rays

Kuiper, L.; Hermsen, W.; Dekker, Ariane

doi:10.1093/mnras/stx3128

Cited by 26 publications

(45 citation statements)

References 36 publications

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“…A few pulsars are dimmer in the highenergy gamma-ray band, with only a few data points available in their SEDs. This is the case of J1513−5908 (Kuiper et al 2018), J1846−0258 (Kuiper & Dekker 2016;Kuiper et al 2018) and J2022+3842 (Pilia et al 2010;Ohuchi et al 2015;Smith 2016).…”

Section: Origin Of the Phase-averaged Gamma-ray Spectra In Our Compilmentioning

confidence: 96%

“…We consider here the pulsars with GeV emission reported in the 2PC catalogue and in subsequent publications (e.g., Guillemot et al 2012;Xing & Wang 2016;Kuiper et al 2018). All of them have a publicly available phase-averaged gamma-ray SED.…”

Section: Selection Of the Samplementioning

confidence: 99%

“…We also include in our sample the pulsars J1846−0258 and J2022+3842, which were detected as gamma-ray pulsars only after the release of the 2PC catalogue (e.g. Kuiper et al 2018), as well as the three pulsars B1821−24, B1937+21 and J0218+4232, as analysed by Gotthelf & Bogdanov (2017). As mentioned above, the SEDs of the pulsars J1747−2958, J1826−1256 and J2021+3651, have been already extracted by us before (Li et al 2018b) using the same procedure adopted in this paper (see Section 5.2).…”

Section: Selection Of the Samplementioning

confidence: 99%

“…We have also included the SEDs extracted by Li et al (2018b), as well as those corresponding to the pulsed X-ray emission as reported by Kuiper & Hermsen (2015) (see their Figure 28) and by Gotthelf & Bogdanov (2017). The Fermi LAT high-energy gamma-ray spectra are taken from Abdo et al (2010a,b); Pilia et al (2010); Lemoine-Goumard et al (2011); Abdo et al (2013); Ackermann et al (2015); Ohuchi et al (2015); Kuiper & Dekker (2016); Li et al (2016); Smith (2016); Xing & Wang (2016); Li et al (2018a); Kuiper et al (2018). The broad-band SED of the Crab pulsar is shown in all panels for comparison.…”

Section: Extraction Of the Non-thermal X-ray Sedsmentioning

confidence: 99%

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Spectral characterization of the non-thermal X-ray emission of gamma-ray pulsars

Zelati

Torres

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We report on a detailed spectral characterization of the non-thermal X-ray emission for a large sample of gamma-ray pulsars in the second Fermi LAT catalogue. We outline the criteria adopted for the selection of our sample, its completeness, and critically describe different approaches to estimate the spectral shape and flux of pulsars. We perform a systematic modelling of the pulsars' X-ray spectra using archival observations with XMM-Newton, Chandra and NuSTAR and extract the corresponding non-thermal X-ray spectral distributions. This set of data is made available online and is useful to confront with predictions of theoretical models.

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Section: Origin Of the Phase-averaged Gamma-ray Spectra In Our Compilmentioning

confidence: 96%

Section: Selection Of the Samplementioning

confidence: 99%

Section: Selection Of the Samplementioning

confidence: 99%

Section: Extraction Of the Non-thermal X-ray Sedsmentioning

confidence: 99%

See 2 more Smart Citations

Spectral characterization of the non-thermal X-ray emission of gamma-ray pulsars

Zelati

Torres

et al. 2019

Monthly Notices of the Royal Astronomical Society

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show abstract

“…In the context of high-field pulsars such as PSRs B1509-58 and J1846-0258, detailed consideration of spectral modeling via this inner magnetosphere scenario, perhaps focusing on their states after magnetar-like outbursts, is deferred to future studies. Yet it is clear that Lorentz factors γ e > ∼ 10 2 will probably be needed in order to generate the spectral turnovers that match those observed in the 1-10 MeV range (e.g., see Kuiper, Hermsen & Dekker 2018), modulo attenuation mechanisms as discussed in Section 5.2 and in Harding, Baring & Gonthier (1997).…”

Section: Emission From Uncooled Electrons On Individual Field Linesmentioning

confidence: 99%

Resonant Inverse Compton Scattering Spectra from Highly Magnetized Neutron Stars

Wadiasingh

Baring

Gonthier

et al. 2018

ApJ

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Hard, non-thermal, persistent pulsed X-ray emission extending between 10 keV and ∼ 150 keV has been observed in nearly ten magnetars. For inner-magnetospheric models of such emission, resonant inverse Compton scattering of soft thermal photons by ultra-relativistic charges is the most efficient production mechanism. We present angle-dependent upscattering spectra and pulsed intensity maps for uncooled, relativistic electrons injected in inner regions of magnetar magnetospheres, calculated using collisional integrals over field loops. Our computations employ a new formulation of the QED Compton scattering cross section in strong magnetic fields that is physically correct for treating important spindependent effects in the cyclotron resonance, thereby producing correct photon spectra. The spectral cut-off energies are sensitive to the choices of observer viewing geometry, electron Lorentz factor, and scattering kinematics. We find that electrons with energies < ∼ 15 MeV will emit most of their radiation below 250 keV, consistent with inferred turnovers for magnetar hard X-ray tails. More energetic electrons still emit mostly below 1 MeV, except for viewing perspectives sampling field line tangents. Pulse profiles may be singly-or doubly-peaked dependent upon viewing geometry, emission locale, and observed energy band. Magnetic pair production and photon splitting will attenuate spectra to hard X-ray energies, suppressing signals in the Fermi-LAT band. The resonant Compton spectra are strongly polarized, suggesting that hard X-ray polarimetry instruments such as X-Calibur, or a future Compton telescope, can prove central to constraining model geometry and physics.

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MeV astrophysical spectroscopic surveyor (MASS): a compton telescope mission concept

Zhu,

Zheng,

Feng

et al. 2024

Exp Astron

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The Fermi-LAT detection of magnetar-like pulsar PSR J1846−0258 at high-energy gamma-rays

Cited by 26 publications

References 36 publications

Spectral characterization of the non-thermal X-ray emission of gamma-ray pulsars

Spectral characterization of the non-thermal X-ray emission of gamma-ray pulsars

Resonant Inverse Compton Scattering Spectra from Highly Magnetized Neutron Stars

MeV astrophysical spectroscopic surveyor (MASS): a compton telescope mission concept

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