1,172 research outputs found
Spectral and timing properties of the accreting X-ray millisecond pulsar IGR J17498-2921
We analyze the spectral and timing properties of IGR J17498-2921 and the
characteristics of X-ray bursts to constrain the physical processes responsible
for the X-ray production in this class of sources. The broad-band average
spectrum is well-described by thermal Comptonization with an electron
temperature of kT_e ~ 50 keV, soft seed photons of kT_bb ~ 1 keV, and Thomson
optical depth \taut ~ 1 in a slab geometry. The slab area corresponds to a
black body radius of R_bb ~9 km. During the outburst, the spectrum stays
remarkably stable with plasma and soft seed photon temperatures and scattering
optical depth that are constant within the errors. This behavior has been
interpreted as indicating that the X-ray emission originates above the neutron
star (NS) surface in a hot slab (either the heated NS surface or the accretion
shock). The INTEGRAL, RXTE, and Swift data reveal the X-ray pulsation at a
period of 2.5 milliseconds up to ~65 keV. The pulsed fraction is consistent
with being constant, i.e. energy independent and has a typical value of 6-7%.
The nearly sinusoidal pulses show soft lags that seem to saturate near 10 keV
at a rather small value of ~ -60\mu s with those observed in other accreting
pulsars. The short burst profiles indicate that there is a hydrogen-poor
material at ignition, which suggests either that the accreted material is
hydrogen-deficient, or that the CNO metallicity is up to a factor of about two
times solar. However, the variation in the burst recurrence time as a function
of \dot{m} (inferred from the X-ray flux) is much smaller than predicted by
helium-ignition models.Comment: 9 pages, 8 figures, accepted for publication in A&A. arXiv admin
note: text overlap with arXiv:1012.022
Swift J1734.5-3027: a new long type-I X-ray bursting source
Swift J1734.5-3027 is a hard X-ray transient discovered by Swift while
undergoing an outburst in September 2013. Archival observations showed that
this source underwent a previous episode of enhanced X-ray activity in May-June
2013. In this paper we report on the analysis of all X-ray data collected
during the outburst in September 2013, the first that could be intensively
followed-up by several X-ray facilities. Our data-set includes INTEGRAL, Swift,
and XMM-Newton observations. From the timing and spectral analysis of these
observations, we show that a long type-I X-ray burst took place during the
source outburst, making Swift J1734.5-3027 a new member of the class of
bursting neutron star low-mass X-ray binaries. The burst lasted for about 1.9
ks and reached a peak flux of (6.01.8)10 erg cm
s in the 0.5-100 keV energy range. The estimated burst fluence in the
same energy range is (1.100.10)10 erg cm. By
assuming that a photospheric radius expansion took place during the first
200 s of the burst and that the accreted material was predominantly
composed by He, we derived a distance to the source of 7.21.5 kpc.Comment: Accepted for publication on A&
A free-flight investigation of the effects of simulated sonic turbojet exhaust on the drag of a boattail body with various jet sizes from Mach number 0.87 to 1.50
A Free-flight Investigation of the Effects of a Sonic Jet on the Total-drag and Base-pressure Coefficients of a Boattail Body of Revolution from Mach Number 0.83 to 1.70
The ephemeris, orbital decay, and masses of 10 eclipsing HMXBs
We take advantage of more than 10 years of monitoring of the eclipsing HMXB
systems LMC X-4, Cen X-3, 4U 1700-377, 4U 1538-522, SMC X-1, IGR J18027-2016,
Vela X-1, IGR J17252-3616, XTE J1855-026, and OAO 1657-415 with the ASM
on-board RXTE and ISGRI on-board INTEGRAL to update their ephemeris. These
results are used to refine previous measurements of the orbital period decay of
all sources (where available) and provide the first accurate values of the
apsidal advance in Vela X-1 and 4U 1538-522. Updated values for the masses of
the neutron stars hosted in the ten HMXBs are also provided, as well as the
long-term lightcurves folded on the sources best determined orbital parameters.
These lightcurves reveal complex eclipse ingresses and egresses, that are
understood mostly as being due to the presence of accretion wakes. The results
reported in this paper constitute a database to be used for population and
evolutionary studies of HMXBs, as well as theoretical modelling of long-term
accretion in wind-fed X-ray binaries.Comment: Accepted for publication on A&
Free-flight Investigation at Transonic Speeds of Drag Coefficients of a Boattail Body of Revolution with a Simulated Turbojet Exhaust Issuing at the Base from Conical Short-length Ejectors
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