Accretion regimes in the X-ray pulsar 4U 1901+03

Reig, P.; Milonaki, F.

doi:10.1051/0004-6361/201629200

Cited by 31 publications

(75 citation statements)

References 63 publications

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“…Furthermore, drawing general conclusions about these theories is statistically questionable as only observational data of a single source are used. In future work, a detailed study of the recently claimed accretion regimes in 4U 1901+03 (Reig & Milonaki 2016) and V 0332+53 (Doroshenko et al 2016) combined with the results by Reig & Nespoli (2013) for various sources could help clarify this question. It should be noted, however, that thorough analysis methods are required and systematic effects (caused by detector calibration and due to the conversion to luminosities) have to be taken into account as, e.g., discussed here.…”

Section: Accretion Regimes In Gro J1008−57mentioning

confidence: 86%

Evidence for different accretion regimes in GRO J1008−57

Kühnel

Fürst

Pottschmidt

et al. 2017

A&A

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We present a comprehensive spectral analysis of the BeXRB GRO J1008−57 over a luminosity range of three orders of magnitude using NuSTAR , Suzaku and RXTE data. We find significant evolution of the spectral parameters with luminosity. In particular the photon index hardens with increasing luminosity at intermediate luminosities between 10 36 -10 37 erg s −1 . This evolution is stable and repeatedly observed over different outbursts. However, at the extreme ends of the observed luminosity range, we find that the correlation breaks down, with a significance level of at least 3.7σ. We conclude that these changes indicate transitions to different accretion regimes, which are characterized by different deceleration processes, such as Coulomb or radiation breaking. We compare our observed luminosity levels of these transitions to theoretical predications and discuss the variation of those theoretical luminosity values with fundamental neutron star parameters. Finally, we present detailed spectroscopy of the unique "triple peaked" outburst in 2014/15 which does not fit in the general parameter evolution with luminosity. The pulse profile on the other hand is consistent with what is expected at this luminosity level, arguing against a change in accretion geometry. In summary, GRO J1008−57 is an ideal target to study different accretion regimes due to the well constrained evolution of its broad-band spectral continuum over several orders of magnitude in luminosity.

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Section: Accretion Regimes In Gro J1008−57mentioning

confidence: 86%

Evidence for different accretion regimes in GRO J1008−57

Kühnel

Fürst

Pottschmidt

et al. 2017

A&A

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“…Moreover, by comparing its K magnitude with the right panel of Fig. 1 in Reig & Milonaki (2016) we note that it is located inside the box populated by blue supergiants. In fact, we found that the observed K and J magnitudes and the observed J −K color are compatible with a B0.5Ia spectral type supergiant star, for a distance of ∼ 8.8 kpc and a reddening of Av=7.2 mag.…”

Section: Search For Infrared Optical and Radio Counterpartsmentioning

confidence: 96%

First hard X-ray detection and broad-band X-ray study of the unidentified transient AX J1949.8+2534

Sguera

Sidoli

Paizis

et al. 2017

Monthly Notices of the Royal Astronomical Society

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We present the results from INTEGRAL and Swift/XRT observations of the hitherto poorly studied unidentified X-ray transient AX J1949.8+2534, and on archival multiwavelength observations of field objects. Bright hard X-ray outbursts have been discovered above 20 keV for the first time, the measured duty cycle and dynamic range are of the order of ∼ 4% and ≥ 630, respectively. The source was also detected during a low soft X-ray state (∼ 2×10 −12 erg cm −2 s −1 ) thanks to a Swift/XRT followup, which allowed for the first time to perform a soft X-ray spectral analysis as well as significantly improve the source positional uncertainty from arcminute to arcsecond size. From archival near-infrared data, we pinpointed two bright objects as most likely counterparts whose photometric properties are compatible with an early type spectral nature. This strongly supports a High Mass X-ray Binary (HMXB) scenario for AX J1949.8+2534, specifically a Supergiant Fast X-ray Transient (more likely) or alternatively a Be HMXB.

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“…A number of papers in the literature have suggested that the outburst or high state of short period BeXR systems occurs when the propeller mechanism temporarily ceases to operate and uninhibited accretion resumes (see e.g. Tsygankov et al 2016;Christodoulou et al 2016;Reig & Milonaki 2016, and references therein). These outburst events occur on short timescales, at least in part as response to surges in wind density, leading to brief outbursts from direct accretion.…”

Section: The Propeller Mechanismmentioning

confidence: 99%

Is there a propeller neutron star in γ Cas?

Smith

Oliveira

Motch

2017

Monthly Notices of the Royal Astronomical Society

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γ Cas is the prototype of a small population of B0-B1.5 III-V classical Be (cBe) stars that emit anomalous and hard X-rays with a unique array of properties. γ Cas is known to host, like other cBe stars, a decretion disk and also a low mass companion. Recently Postnov et al. have posited that this companion is a magnetized rapidly spinning neutron star that deflects direct gravitational accretion from a stellar/disk wind via the "propeller mechanism." These authors state that the key X-ray observations are "remarkably well produced" in this scenario. We reexamine this mechanism in detail and conclude that there are a number of fatal objections in its application to the γ Cas case. Among other considerations these issues include the prediction under the propeller scenario of a much smaller population of γ Cas stars than is observed and the lack of allowance for observed correlations of X-ray and UV and/or optical properties over a variety of timescales.

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Accretion regimes in the X-ray pulsar 4U 1901+03

Cited by 31 publications

References 63 publications

Evidence for different accretion regimes in GRO J1008−57

Evidence for different accretion regimes in GRO J1008−57

First hard X-ray detection and broad-band X-ray study of the unidentified transient AX J1949.8+2534

Is there a propeller neutron star in γ Cas?

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