63 research outputs found
Counterparts to the Nuclear Bulge X-ray source population
We present an initial matching of the source positions of the Chandra Nuclear
Bulge X-ray sources to the new UKIDSS-GPS near-infrared survey of the Nuclear
Bulge. This task is made difficult by the extremely crowded nature of the
region, despite this, we find candidate counterparts to ~50% of the X-ray
sources. We show that detection in the J-band for a candidate counterpart to an
X-ray source preferentially selects those candidate counterparts in the
foreground whereas candidate counterparts with only detections in the H and
K-bands are more likely to be Nuclear Bulge sources. We discuss the planned
follow-up for these candidate counterparts.Comment: 5 pages, 2 figures, 1 table, published in the proceedings of "A
population Explosion", AIP Conference Proceedings Volume 1010, pp. 117-12
The Nuclear Bulge extinction
We present a new, high resolution (5" per pixel) near-infrared extinction map
of the Nuclear Bulge using data from the UKIDSS-GPS. Using photometry from the
J, H and K-bands we show that the extinction law parameter is also highly
variable in this region on similar scales to the absolute extinction. We show
that only when this extinction law variation is taken into account can the
extinction be measured consistently at different wavelengths.Comment: 3 pages, 2 figures, published in the proceedings of "A population
Explosion", AIP Conference Proceedings Volume 1010, pp. 168-17
Chandra Localizations of LMXBs: IR Counterparts and their Properties
We present new Chandra observations of the low mass X-ray binaries (LMXBs) X1624−490, X1702−429, and X1715−321 and the search for their Infrared (IR) counterparts. We also report on early results from our dedicated IR survey of LMXBs. The goal of this program is to investigate whether IR counterparts can be identified through unique IR colors and to trace the origin of the IR emission in these systems
Complex small-scale structure in the infrared extinction towards the Galactic Centre
A high level of complex structure, or ``granularity'', has been observed in
the distribution of infrared-obscuring material towards the Galactic Centre
(GC), with a characteristic scale of 5arcsec - 15arcsec, corresponding to 0.2 -
0.6pc at a GC distance of 8.5kpc. This structure has been observed in ISAAC
images which have a resolution of 0.6arcsec, significantly higher than that of
previous studies of the GC.
We have discovered granularity throughout the GC survey region, which covers
an area of 1.6deg x 0.8deg in longitude and latitude respectively (300pc x
120pc at 8.5kpc) centred on Sgr A*. This granularity is variable over the whole
region, with some areas exhibiting highly structured extinction in one or more
wavebands and other areas displaying no structure and a uniform stellar
distribution in all wavebands. The granularity does not appear to correspond to
longitude, latitude or radial distance from Sgr A*. We find that regions
exhibiting high granularity are strongly associated with high stellar
reddening.Comment: 5 pages, 3 figures, accepted for publication in ApJ
The Path to Buried Treasure: Paving the Way to the FLAMINGOS-2 Galactic Center Survey with IR and X-ray Observations
I describe the IR and X-ray campaign we have undertaken to determine the
nature of the faint discrete X-ray source population discovered by Chandra in
the Galactic Center. These results will provide the input to the FLAMINGOS-2
Galactic Center Survey (F2GCS). With FLAMINGOS-2's multi-object IR spectrograph
we will obtain 1000s of IR spectra of candidate X-ray source counterparts,
allowing us to efficiently identify the nature of these sources, and thus
dramatically increase the number of known X-ray binaries and CVs in the Milky
Way.Comment: To be published in Proceedings of 'A Population Explosion: The Nature
and Evolution of X-ray Binaries in Diverse Environments', 28 Oct - 2 Nov, St.
Pete Beach, FL; eds. R.M. Bandyopadhyay, S. Wachter, D. Gelino, C.R. Gelino;
AIP Conference Proceedings Serie
X-Ray Binaries and the Dynamical States of Globular Clusters
We summarize and discuss recent work (Fregeau 2007) that presents the
confluence of three results suggesting that most Galactic globular clusters are
still in the process of core contraction, and have not yet reached the thermal
equilibrium phase driven by binary scattering interactions: that 1) the three
clusters that appear to be overabundant in X-ray binaries per unit encounter
frequency are observationally classified as "core-collapsed," 2) recent
numerical simulations of cluster evolution with primordial binaries show that
structural parameters of clusters in the binary-burning phase agree only with
"core-collapsed" clusters, and 3) a cluster in the binary-burning phase for the
last few Gyr should have about 5 times more dynamically formed X-ray sources
than if it were in the core contraction phase for the same time.Comment: Conference proceedings from "A Population Explosion: The Nature and
Evolution of X-ray Binaries in Diverse Environments," 28 Oct - 2 Nov, St.
Petersburg Beach, FL. 4 page
Spitzer Space Telescope Observations of Low Mass X-ray Binaries
We present preliminary results from our archival Spitzer Space Telescope
program aimed at characterizing the mid-IR properties of compact objects, both
isolated and in binary systems, i.e. white dwarfs, X-ray binaries, cataclysmic
variables, and magnetars. Most of these sources are too faint at mid-IR
wavelengths to be observable from the ground, so this study provides the very
first comprehensive look at the mid-IR emission of these objects. Here we
present our results for the low mass X-ray binaries. We considered all of the
systems listed in the most recent catalog of Liu et al. (2007) that have known
optical counterparts. The particular goals of our projects encompass: to
establish the mid-IR spectral energy distribution, to search for the signatures
of jets, circumbinary disks, low mass or planetary companions and debris disks,
and to study the local environment of these sources.Comment: 6 pages, updated and expanded version of article to appear in
Proceedings of "A Population Explosion: The Nature and Evolution of X-ray
Binaries in Diverse Environments", 28 Oct - 2 Nov, St. Pete Beach, FL; eds.
R.M. Bandyopadhyay, S. Wachter, D. Gelino, C.R. Gelino; AIP Conference
Proceedings Serie
INTEGRAL and New Classes of High-Mass X-ray Binaries
The gamma-ray observatory INTEGRAL, launched in October 2002, produces a
wealth of discoveries and new results on compact high energy Galactic objects,
nuclear gamma-ray line emission, diffuse line and continuum emission, cosmic
background radiation, AGN and high energy transients. Two important
serendipitous discoveries made by the INTEGRAL mission are new classes of X-ray
binaries, namely the highly-obscured high-mass X-ray binaries, and the
super-giant fast transients. In this paper I will review the current status of
these discoveries.Comment: 3 pages, 1 figure, submitted; Proceedings "The nature and evolution
of X-ray binaries in diverse environments", St Petersburg/FL, USA, 28 Oct -
02 Nov 200
Eclipse Timings of the Low-Mass X-Ray Binary EXO 0748–676. III. Orbital Period Jitter Observed with the Unconventional Stellar Aspect Experiment and the Rossi X-Ray Timing Explorer
We present seven eclipse timings of the low-mass X-ray binary (LMXB) EXO 0748-676 obtained with the Unconventional Stellar Aspect (USA) Experiment during 1999-2000, as well as 122 eclipse timings obtained with the Rossi X-Ray Timing Explorer (RXTE) during 1996-2000. According to our analysis, the mean orbital period has increased by ~8 ms between the pre-RXTE era (1985-1990) and the RXTE/USA era (1996-2000). This corresponds to an orbital period derivative of Porb/orb ~ 2 × 107 yr. However, neither a constant orbital period derivative nor any other simple ephemeris provides an acceptable fit to the data; individual timings of eclipse centers have residuals of up to 15 or more seconds away from our derived smooth ephemerides. When we consider all published eclipse timing data, including those presented here, a model that includes observational measurement error, cumulative period jitter, and underlying period evolution is found to be consistent with the timing data. We discuss several physical mechanisms for LMXB orbital evolution in an effort to account for the change in orbital period and the observed intrinsic jitter in the mideclipse times
Multiwavelength Studies of X-ray Binaries
Simultaneous multiwavelength studies of X-ray binaries have been remarkably
successful and resulted in improved physical constraints, a new understanding
of the dependence of mass accretion rate on X-ray state, as well as insights on
the time-dependent relationship between disk structure and mass-transfer rate.
I will give some examples of the tremendous gains we have obtained in our
understanding of XRBs by using multiwavelength observations. I will end with an
appeal that while Spitzer cryogens are still available a special effort be put
forth to obtaining coordinated observations including the mid-infrared: Whereas
the optical and near-IR originate as superpositions of the secondary star and
of accretion processes, the mid-IR crucially detects jet synchrotron emission
from NSs that is virtually immeasurable at other wavelengths. A further benefit
of Spitzer observations is that mid-infrared wavelengths can easily penetrate
regions that are heavily obscured. Many X-ray binaries lie in the Galactic
plane and as such are often heavily obscured in the optical by interstellar
extinction. The infrared component of the SED, vital to the study of jets and
dust, can be provided {\it only} by Spitzer; in the X-rays we currently have an
unprecedented six satellites available and in the optical and radio dozens of
ground-based facilities to complement the Spitzer observations.Comment: 5 pages including figures, in conference proceedings A Population
Explosion: The Nature and Evolution of X-ray Binaries in Diverse
Environments, eds. Bandyopadhyay, Wachter, Gelino, & Gelin
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