20,527 research outputs found
Catalogue of Be/X-ray binary systems in the Small Magellanic Cloud: X-ray, optical & IR properties
This is a catalogue of approximately 70 X-ray emitting binary systems in the
Small Magellanic Cloud (SMC) that contain a Be star as the mass donor in the
system and a clear X-ray pulse signature from a neutron star. The systems are
generally referred to as Be/Xray binaries. It lists all their known binary
characteristics (orbital period, eccentricity), the measured spin period of the
compact object, plus the characteristics of the Be star (spectral type, size of
the circumstellar disk, evidence for NRP behaviour). For the first time data
from the Spitzer Observatory are combined with ground-based data to provide a
view of these systems out into the far-IR. Many of the observational parameters
are presented as statistical distributions and compared to other similar
similar populations (eg isolated Be & B stars) in the SMC, and to other
Be/X-ray systems in the Milky Way. In addition previous important results are
re-investigated using this excellently homogeneous sample. In particular, the
evidence for a bi-modality in the spin period distribution is shown to be even
stronger than first proposed, and the correlation between orbital period and
circumstellar disk size seen in galactic sources is shown to be clearly present
in the SMC systems and quantised for the first time.Comment: 10 pages, 10 figures, 4 tables. Accepted for publication in MNRA
Butterflies (Lepidoptera) on Hill Prairies of Allamakee County, Iowa: A Comparison of the Late 1980s With 2013
In the late 1980s, several hundred butterflies were collected by John Nehnevaj from hill prairies and a fen in Allamakee County, Iowa. Nehnevaj’s collection included 69 species, 14 of which are currently listed in Iowa as species of greatest conservation need (SGCN). The goal of this study was to revisit sites surveyed in the 1980s and survey three additional sites to compare the species present in 2013 to the species found by Nehnevaj. A primary objective was to document the presence of rare prairie specialist butterflies (Lepidoptera), specifically the ottoe skipper (Hesperia ottoe W.H. Edwards; Hesperiidae), which was thought to be extirpated from Iowa. Twelve sites were surveyed 4 to 7 times between June and September 2013 using a meandering Pollard walk technique. A total of 2,860 butterflies representing 58 species were found; eight of these species were SGCN’s, including the hickory hairstreak (Satyrium caryaevorum McDunnough; Lycaenidae), and Leonard\u27s skipper (Hesperia leonardus Harris; Hesperiidae), species not collected in the 1980s, and the ottoe skipper and Baltimore checkerspot (Euphydryas phaeton Drury; Nymphalidae), both species also found by Nehnevaj. Species richness for the sites ranged from 14 to 33 species, with SGCNs found at 11 of the 12 sites. Significant landscape changes have occurred to hill prairies in Allamakee County over the past 25 years. Invasion by red cedar (Juniperus virginiana) has reduced hill prairie an average of 55.4% at these sites since the 1980s, but up to 100% on some of the sites surveyed by Nehnevaj. These changes in habitat may have contributed to the overall decrease in species richness. This study provides valuable information about the current status of butterflies present on northeastern Iowa hill prairies that can be used in directing future land management and conservation efforts
External Compton emission from relativistic jets in Galactic black hole candidates and ultraluminous X-ray sources
Galactic binary systems that contain a black hole candidate emit hard X-rays
in their low luminosity mode. We show that this emission can be understood as
due to the Compton scattering of photons from the companion star and/or the
accretion disk by relativistic electrons in a jet. The same electrons are also
responsible for the radio emission. Two sources -- XTE J1118+480 and Cygnus X-1
-- are modelled as representatives of black holes with low and high luminosity
companion stars respectively. We further show that the ultraluminous compact
X-ray sources observed in nearby galaxies have the properties expected of
stellar mass black holes with high luminosity companions in which the jet is
oriented close to our line of sight.Comment: Submitted to A&A letters, Oct 16, 200
SCUBA polarisation observations of the magnetic fields in the prestellar cores L1498 and L1517B
We have mapped linearly polarized dust emission from the prestellar cores
L1498 and L1517B with the James Clerk Maxwell Telescope (JCMT) using the
Submillimetre Common User Bolometer Array (SCUBA) and its polarimeter SCUBAPOL
at a wavelength of 850um. We use these measurements to determine the
plane-of-sky magnetic field orientation in the cores. In L1498 we see a
magnetic field across the peak of the core that lies at an offset of 19 degrees
to the short axis of the core. This is similar to the offsets seen in previous
observations of prestellar cores. To the southeast of the peak, in the
filamentary tail of the core, we see that the magnetic field has rotated to lie
almost parallel to the long axis of the filament. We hypothesise that the field
in the core may have decoupled from the field in the filament that connects the
core to the rest of the cloud. We use the Chandrasekhar-Fermi (CF) method to
measure the plane-of-sky field strength in the core of L1498 to be 10 +/- 7 uG.
In L1517B we see a more gradual turn in the field direction from the northern
part of the core to the south. This appears to follow a twist in the filament
in which the core is buried, with the field staying at a roughly constant 25
degree offset to the short axis of the filament, also consistent with previous
observations of prestellar cores. We again use the CF method and calculate the
magnetic field strength in L1517B also to be 30 +/- 10 uG. Both cores appear to
be roughly virialised. Comparison with our previous work on somewhat denser
cores shows that, for the denser cores, thermal and non-thermal (including
magnetic) support are approximately equal, while for the lower density cores
studied here, thermal support dominates.Comment: 6 pages, 2 figures; accepted for publication by MNRA
A Corona Australis cloud filament seen in NIR scattered light. III. Modelling and comparison with Herschel sub-millimetre data
With recent Herschel observations, the northern filament of the Corona
Australis cloud has now been mapped in a number of bands from 1.2um to 870um.
The data set provides a good starting point for the study of the cloud over
several orders of magnitude in density. We wish to examine the differences of
the column density distributions derived from dust extinction, scattering, and
emission, and to determine to what extent the observations are consistent with
the standard dust models. From Herschel data, we calculate the column density
distribution that is compared to the corresponding data derived in the
near-infrared regime from the reddening of the background stars, and from the
surface brightness attributed to light scattering. We construct
three-dimensional radiative transfer models to describe the emission and the
scattering. The scattered light traces low column densities of A_V~1mag better
than the dust emission, remaining useful to A_V ~ 10-15 mag. Based on the
models, the extinction and the level of dust emission are surprisingly
consistent with a sub-millimetre dust emissivity typical of diffuse medium.
However, the intensity of the scattered light is very low at the centre of the
densest clump and this cannot be explained without a very low grain albedo.
Both the scattered light and dust emission indicate an anisotropic radiation
field. The modelling of the dust emission suggests that the radiation field
intensity is at least three times the value of the normal interstellar
radiation field. The inter-comparison between the extinction, light scattering,
and dust emission provides very stringent constraints on the cloud structure,
the illuminating radiation field, and the grain properties.Comment: 13 pages, 16 figures, accepted to A&
Radio/X-ray Offsets of Large Scale Jets Caused by Synchrotron Time Lags
In the internal shock scenario, we argue that electrons in most kpc (or even
larger) scale jets can be accelerated to energies high enough to emit
synchrotron X-rays, if shocks exist on these scales. These high energy
electrons emit synchrotron radiation at high frequencies and cool as they
propagate downstream along the jet, emitting at progressively lower frequencies
and resulting in time lags and hence radio/X-ray (and optical/X-ray if the
optical knot is detectable) offsets at bright knots, with the centroids of
X-ray knots being closer to the core. Taking into account strong effects of jet
expansion, the behaviour of radio/X-ray and optical/X-ray offsets at bright
knots in M87, Cen A, 3C 66B, 3C 31, 3C 273, and PKS 1127-145 is consistent with
that of synchrotron time lags due to radiative losses. This suggests that the
large scale X-ray and optical jets in these sources are due to synchrotron
emission.Comment: 4 pages, Accepted for publication in ApJ Letter
Growth rates of the Weibel and tearing mode instabilities in a relativistic pair plasma
We present an algorithm for solving the linear dispersion relation in an
inhomogeneous, magnetised, relativistic plasma. The method is a generalisation
of a previously reported algorithm that was limited to the homogeneous case.
The extension involves projecting the spatial dependence of the perturbations
onto a set of basis functions that satisfy the boundary conditions (spectral
Galerkin method). To test this algorithm in the homogeneous case, we derive an
analytical expression for the growth rate of the Weibel instability for a
relativistic Maxwellian distribution and compare it with the numerical results.
In the inhomogeneous case, we present solutions of the dispersion relation for
the relativistic tearing mode, making no assumption about the thickness of the
current sheet, and check the numerical method against the analytical
expression.Comment: Accepted by PPC
- …