53 research outputs found
A possible dividing line between massive planets and brown-dwarf companions
Brown dwarfs are intermediate objects between planets and stars. The lower
end of the brown-dwarf mass range overlaps with the one of massive planets and
therefore the distinction between planets and brown-dwarf companions may
require to trace the individual formation process. We present results on new
potential brown-dwarf companions of Sun-like stars, which were discovered using
CORALIE radial-velocity measurements. By combining the spectroscopic orbits and
Hipparcos astrometric measurements, we have determined the orbit inclinations
and therefore the companion masses for many of these systems. This has revealed
a mass range between 25 and 45 Jupiter masses almost void of objects,
suggesting a possible dividing line between massive planets and sub-stellar
companions.Comment: 4 pages, 3 figures, submitted to IAUS 276 conference proceeding
The Orbit of the L dwarf + T dwarf Spectral Binary SDSS J080531.84+481233.0
[abridged] We report four years of radial velocity monitoring observations of
SDSS J080531.84+481233.0 that reveal significant and periodic variability,
confirming the binary nature of the source. We infer an orbital period of
2.020.03 yr, a semi-major axis of 0.76 AU, and an
eccentricity of 0.460.05, consistent with the amplitude of astrometric
variability and prior attempts to resolve the system. Folding in constraints
based on the spectral types of the components (L40.7 and T5.51.1),
corresponding effective temperatures, and brown dwarf evolutionary models, we
further constrain the orbital inclination of this system to be nearly edge-on
(9019), and deduce a large system mass ratio (M/M =
0.86), substellar components (M =
0.057 M, M = 0.048
M), and a relatively old system age (minimum age =
4.0 Gyr). The measured projected rotational velocity of the
primary ( = 34.10.7 km/s) implies that this inactive source is a
rapid rotator (period 3 hr) and a viable system for testing
spin-orbit alignment in very-low-mass multiples. The combination of
well-determined component atmospheric properties and masses near and/or below
the hydrogen minimum mass make SDSS J0805+4812AB an important system for future
tests of brown dwarf evolutionary models.Comment: 15 pages, 11 figures, accepted for publication to Ap
A possible dividing line between massive planets and brown-dwarf companions
Brown dwarfs are intermediate objects between planets and stars. The lower end of the brown-dwarf mass range overlaps with the one of massive planets and therefore the distinction between planets and brown-dwarf companions may require to trace the individual formation process. We present results on new potential brown-dwarf companions of Sun-like stars, which were discovered using CORALIE radial-velocity measurements. By combining the spectroscopic orbits and Hipparcos astrometric measurements, we have determined the orbit inclinations and therefore the companion masses for many of these systems. This has revealed a mass range between 25 and 45 Jupiter masses almost void of objects, suggesting a possible dividing line between massive planets and sub-stellar companion
Gaia TGAS search for Large Magellanic Cloud runaway supergiant stars:Candidate hypervelocity star discovery, and the nature of R71
We search for runaway stars in the Large Magellanic Cloud (LMC) by computing
the space velocities of the visually brightest stars in the LMC that are
included in the Gaia TGAS proper motion catalog. We compare with predictions
from stellar dynamical models to obtain (peculiar) velocities relative to their
local stellar environment. Two of the 31 stars have unusually high proper
motions. Of the remaining 29 stars we find that most objects in this sample
have velocities in very good agreement with model predictions of a circularly
rotating disk model. Indeed the excellent fit to the model implies that the
TGAS uncertainty estimates are likely overestimated. The fastest outliers in
this subsample contain the LBV R71 and a few other well known emission line
objects though in no case do we derive velocities consistent with fast (~100
km/s) runaways. Our results imply that R 71 in particular has a moderate
deviation from the local stellar velocity field (40 km/s) lending support to
the proposition that this object cannot have evolved as a normal single star
since it lies too far from massive star forming complexes to have arrived at
its current position during its lifetime. Our findings therefore strengthen the
case for this LBV being the result of binary evolution. Of the two stars with
unusually high proper motions we find that one, the isolated B1.5 Ia+
supergiant Sk-67 2 (HIP 22237), is a candidate hypervelocity star, the TGAS
proper motion implying a very large peculiar transverse velocity (~360 km/s)
directed radially away from the LMC centre. If confirmed, for example by Gaia
Data Release 2, it would imply that this massive supergiant, on the periphery
of the LMC, is leaving the galaxy where it will explode as a supernova.Comment: 7 pages, 5 figures, revised versio
Exoplanet Detection Techniques
We are still in the early days of exoplanet discovery. Astronomers are
beginning to model the atmospheres and interiors of exoplanets and have
developed a deeper understanding of processes of planet formation and
evolution. However, we have yet to map out the full complexity of multi-planet
architectures or to detect Earth analogues around nearby stars. Reaching these
ambitious goals will require further improvements in instrumentation and new
analysis tools. In this chapter, we provide an overview of five observational
techniques that are currently employed in the detection of exoplanets: optical
and IR Doppler measurements, transit photometry, direct imaging, microlensing,
and astrometry. We provide a basic description of how each of these techniques
works and discuss forefront developments that will result in new discoveries.
We also highlight the observational limitations and synergies of each method
and their connections to future space missions.Comment: 24 pages, 19 figures, PPVI proceedings. Appears as 2014, Protostars
and Planets VI, Henrik Beuther, Ralf S. Klessen, Cornelis P. Dullemond, and
Thomas Henning (eds.), University of Arizona Press, Tucson, 914 pp.,
p.715-73
Gaia's potential for the discovery of circumbinary planets
The abundance and properties of planets orbiting binary stars - circumbinary
planets - are largely unknown because they are difficult to detect with
currently available techniques. Results from the Kepler satellite and other
studies indicate a minimum occurrence rate of circumbinary giant planets of ~10
%, yet only a handful are presently known. Here, we study the potential of
ESA's Gaia mission to discover and characterise extrasolar planets orbiting
nearby binary stars by detecting the binary's periodic astrometric motion
caused by the orbiting planet. We expect that Gaia will discover hundreds of
giant planets around binaries with FGK dwarf primaries within 200 pc of the
Sun, if we assume that the giant planet mass distribution and abundance are
similar around binaries and single stars. If on the other hand all circumbinary
gas giants have masses lower than two Jupiter masses, we expect only four
detections. Gaia is critically sensitive to the properties of giant
circumbinary planets and will therefore make the detailed study of their
population possible. Gaia's precision is such that the distribution in mutual
inclination between the binary and planetary orbital planes will be obtained.
It also possesses the capacity to establish the frequency of planets across the
H-R diagram, both as a function of mass and of stellar evolutionary state from
pre-main sequence to stellar remnants. Gaia's discoveries can reveal whether a
second epoch of planetary formation occurs after the red-giant phase.Comment: 12 pages, 11 figures. Submitted to MNRAS. Revised version after
referee repor
Toward Complete Characterization: Prospects for Directly Imaging Transiting Exoplanets
High contrast direct imaging of exoplanets can provide many important
observables, including measurements of the orbit, spectra that probe the lower
layers of the atmosphere, and phase variations of the planet, but cannot
directly measure planet radius or mass. Our future understanding of directly
imaged exoplanets will therefore rely on extrapolated models of planetary
atmospheres and bulk composition, which need robust calibration. We estimate
the population of extrasolar planets that could serve as calibrators for these
models. Critically, this population of "standard planets" must be accessible to
both direct imaging and the transit method, allowing for radius measurement. We
show that the search volume of a direct imaging mission eventually overcomes
the transit probability falloff with semi-major axis, so that as long as cold
planets are not exceedingly rare, the population of transiting planets and
directly imageable planets overlaps. Using current extrapolations of Kepler
occurrence rates, we estimate that ~8 standard planets could be characterized
shortward of 800 nm with an ambitious future direct imaging mission like
LUVOIR-A and several dozen could be detected at V band. We show the design
space that would expand the sample size and discuss the extent to which ground-
and space-based surveys could detect this small but crucial population of
planets.Comment: 13 pages, 9 figures, Accepted for publication in A
99mTc-Besilesomab-SPECT/CT in Infectious Endocarditis: Upgrade of a Forgotten Method?
Infective endocarditis displays a serious condition with high mortality rates. Establishing a reliable diagnosis can be challenging. This study evaluates granulocyte imaging with 99mTc-Besilesomab-SPECT/CT in order to determine the clinical value of the method and its possible redefinition through the addition of hybrid imaging. The study comprises 26 consecutive patients with suspected infectious endocarditis or prosthetic valve infection that underwent 99mTc-Besilesomab-SPECT/CT in our facility between December 2016 and September 2018. 99mTc-Besilesomab-SPECT/CT images were reviewed by two independent and blinded observers and results were evaluated by transesophageal echocardiography (TEE) and blood culture results as well as by pathological, bacteriological, and clinical findings. Target-to-Background-Ratios were calculated for semi-quantitative analysis. 13/26 patients were in a post-surgical stage. 99mTc-Besilesomab-SPECT/CT was positive in 6 cases. All 6 cases were true positive confirmed by pathological or clinical findings according to the modified Duke Criteria for infective endocarditis. Remaining 19/26 cases were true negative. Target-to-Background ratios were significantly higher in patients that were visually scored positive compared to negative cases. Inter-observer agreement was very good of deciding whether a scan was positive or negative. Sensitivity of 99mTc-Besilesomab-SPECT/CT was 86–100% and specificity was 100%. 99mTc-Besilesomab-SPECT/CT is a useful imaging method for the diagnosis of endocarditis, especially in difficult cases with prosthetic valves or cardiac devices and inconclusive findings in echocardiography. The added value of SPECT/CT was mainly finding and localizing increased uptake at a certain valve, prosthesis, or device cable
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