2001
DOI: 10.1051/0004-6361:20011129
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X-ray spectra from protons illuminating a neutron star

Abstract: Abstract. We consider the interaction of a slowly rotating unmagnetized neutron star with a hot (ion supported, ADAF) accretion flow. The virialized protons of the ADAF penetrate into the neutron star atmosphere, heating a surface layer. Detailed calculations are presented of the equilibrium between heating by the protons, electron thermal conduction, bremsstrahlung and multiple Compton scattering in this layer. Its temperature is of the order 40-70 keV. Its optical depth increases with the incident proton ene… Show more

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Cited by 41 publications
(64 citation statements)
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“…Sunyaev and Shakura 1986;Inogamov and Sunyaev 1999;Deufel et al 2001;Popham and Sunyaev 2001;Grebenev et al 2002;Suleimanov and Poutanen 2006). Such a layer is formed because the gas must decelerate from the near-Keplerian velocities in the inner accretion disk (≈ 0.2c-0.4c for typical inner disk radii; see below) to the slower rotational motion of the NS (typically a few hundred Hz; see , for the most recent overview of spin rates measured for NS LMXBs).…”
Section: Accretion Disks and X-ray Spectral Statesmentioning
confidence: 99%
“…Sunyaev and Shakura 1986;Inogamov and Sunyaev 1999;Deufel et al 2001;Popham and Sunyaev 2001;Grebenev et al 2002;Suleimanov and Poutanen 2006). Such a layer is formed because the gas must decelerate from the near-Keplerian velocities in the inner accretion disk (≈ 0.2c-0.4c for typical inner disk radii; see below) to the slower rotational motion of the NS (typically a few hundred Hz; see , for the most recent overview of spin rates measured for NS LMXBs).…”
Section: Accretion Disks and X-ray Spectral Statesmentioning
confidence: 99%
“…Its quiescent spectrum consists of a soft, thermal component (dominating at energies 3 keV) and a harder component that can be described by a simple power law (e.g., Verbunt et al 1994;Rutledge et al 2002a;Campana & Stella 2003;Cackett et al 2011a;Campana et al 2014). The thermal emission component is thought to be coming from the neutron star surface, and is either due to it being heated by continued low-level accretion (e.g., van Paradijs et al 1987;Zampieri et al 1995;Campana et al 1997;Deufel et al 2001), or due to radiation of heat deposited in its interior during accretion episodes (e.g., Brown et al 1998;Rutledge et al 1999;Campana et al 2000).…”
Section: Aql X-1mentioning
confidence: 99%
“…The overlap region is a source of hard X-rays (Deufel et al 2001. The ISAF itself, however, may actually be the main X-ray producing region, and its oscillations are expected to have direct implications on the shape of the emitted spectrum.…”
Section: Spectral Evolution During the Oscillationmentioning
confidence: 99%