3,454 research outputs found
Unpowered Aerodynamic Characteristics of a 15-Percent Scale Model of a Twin-Engine Commuter Aircraft
An experimental investigation was conducted in the Ames 12-Foot Pressure Wind Tunnel to determine the unpowered aerodynamic characteristics of a 15-percent-scale model of a twin-engine commuter aircraft. Model longitudinal aerodynamic characteristics were examined at discrete flap deflections for various angle-of-attack and wind-tunnel-velocity ranges with the empennage on and off. Data are presented for the basic model configuration consisting of the fuselage, wing, basic wing leading edge, double slotted flaps, midengine nacelles, and empennage. Other configurations tested include a particle-span drooped leading edge (dropped outboard of the engine nacelles), a full-span drooped leading edge, low- and high-mounted engine nacelles, and a single-slotted flap. An evaluation was made of the model mounting system by comparing data obtained with the model mounted conventionally on the wind-tunnel model-support struts and the model inverted
Thrust and wing loading requirements for short haul aircraft constrained by engine noise and field length
Propulsion system and wing loading requirements are determined for a mechanical flap and an externally blown flap aircraft for various engine noise levels and two engine cycles. Both aircraft are sized to operate from a 914m (3000 ft) runway and perform the same mission. For each aircraft concept, propulsion system sizing is demonstrated for two different engine cycles - one having a fan pressure ratio of 1.5 and a bypass ratio of 9, and the other having a fan pressure ratio of 1.25 and a bypass ratio of 17.8. The results presented include the required thrust-to-weight ratio, wing loading, resulting gross weight, and direct operating costs, as functions of the engine noise level, for each combination of engine cycle and aircraft concept
Indications for a slow rotator in the Rapid Burster from its thermonuclear bursting behaviour
We perform time-resolved spectroscopy of all the type I bursts from the Rapid
Burster (MXB 1730-335) detected with the Rossi X-ray Timing Explorer. Type I
bursts are detected at high accretion rates, up to \sim 45% of the Eddington
luminosity. We find evidence that bursts lacking the canonical cooling in their
time-resolved spectra are, none the less, thermonuclear in nature. The type I
bursting rate keeps increasing with the persistent luminosity, well above the
threshold at which it is known to abruptly drop in other bursting low-mass
X-ray binaries. The only other known source in which the bursting rate keeps
increasing over such a large range of mass accretion rates is the 11 Hz pulsar
IGR J174802446. This may indicate a similarly slow spin for the neutron star
in the Rapid Burster
On the topology of stationary black holes
We prove that the domain of outer communication of a stationary, globally
hyperbolic spacetime satisfying the null energy condition must be simply
connected. Under suitable additional hypotheses, this implies, in particular,
that each connected component of a cross-section of the event horizon of a
stationary black hole must have spherical topology.Comment: 7 pages, Late
Non-Existence of Black Holes in Certain Spacetimes
Assuming certain asymptotic conditions, we prove a general theorem on the
non-existence of static regular (i.e., nondegenerate) black holes in spacetimes
with a negative cosmological constant, given that the fundamental group of
space is infinite. We use this to rule out the existence of regular negative
mass AdS black holes with Ricci flat scri. For any mass, we also rule out a
class of conformally compactifiable static black holes whose conformal infinity
has positive scalar curvature and infinite fundamental group, subject to our
asymptotic conditions. In a limited, but important, special case our result
adds new support to the AdS/CFT inspired positive mass conjecture of Horowitz
and Myers.Comment: 17 pages, Latex. Typos corrected, minor changes to the text. Accepted
for publication in Classical and Quantum Gravit
Summary of the recent short-haul systems studies
The results of several NASA sponsored high density short haul air transportation systems studies are reported as well as analyzed. Included are the total STOL systems analysis approach, a companion STOL composites study conducted in conjunction with STOL systems studies, a STOL economic assessment study, an evaluation of STOL aircraft with and without externally blown flaps, an alternative STOL systems for the San Francisco Bay Area, and the quiet, clean experimental engine studies. Assumptions and results of these studies are summarized, their differences, analyzed, and the results compared with those in-house analyses performed by the Systems Studies Division of the NASA-Ames Research Center. Pertinent conclusions are developed and the more significant technology needs for the evaluation of a viable short haul transportation system are identified
A search for the near-infrared counterpart of the eclipsing millisecond X-ray pulsar Swift J1749.4-2807
Swift J1749.4-2807 is a transient accreting millisecond X-ray pulsars, the
first that displayed X-ray eclipses. Therefore it holds a great potential for
accurate mass measurements in a low mass X-ray binary system. The determination
of the companion star radial velocity would make it possible to fully resolve
the system and to accurately measure the mass of the neutron star based on
dynamical measurements. Unfortunately, no optical/NIR counterpart has been
identified to date for this system, either in outburst or in quiescence. We
performed a photometric study of the field of Swift J1749.4-2807 during
quiescence in order to search for the presence of a variable counterpart. The
source direction lies on the Galactic plane, making any search for its
optical/NIR counterpart challenging. To minimize the effects of field crowding
and interstellar extinction, we carried out our observations using the adaptive
optics near-infrared imager NACO mounted at the ESO Very Large Telescope. From
the analysis of Swift X-ray data obtained during outburst, we derived the most
precise (1.6" radius) position for this source. Due to the extreme stellar
crowding of the field, 41 sources are detected in our VLT images within the
X-ray error circle, with some of them possibly showing variability consistent
with the expectations. We carried out the first deep imaging campaign devoted
to the search of the quiescent NIR counterpart of Swift J1749.4-2807. Our
results allow to provide constraints on the nature of the companion star of
this system. Furthermore, they suggest that future phase-resolved NIR
observations (performed with large aperture telescopes and adaptive optics)
covering the full orbital period of the system are likely to identify the
quiescent counterpart of Swift J1749.4-2807, through the measure of its orbital
variability, opening the possibility of dynamical studies of this unique
source.Comment: 5 pages, 3 figures, accepted for publication in Astronomy and
Astrophysic
An intraoperative surprise : occult case of non-functional parathyroid carcinoma
Parathyroid carcinoma (PC) exists in <1% of patients with hyperparathyroidism (Figure 1) and typically presents with a robust constellation of findings that rarely go unnoticed. Mean serum parathyroid hormone (PTH) concentrations are commonly 3-to 10-fold higher than the upper limit of normal with a mean serum calcium concentration that frequently exceeds 14 mg/dL. PCs also tend to metastasize to cervical lymph nodes (30%) which is a distinctly ominous sign when associated with this rare pathology as compared to its benign counterpart, parathyroid adenomas. Non-functioning parathyroid carcinomas (NPC), less than 10% of PCs, are exceptionally rare, and can more closely resemble parathyroid adenoma/hyperplasia on preoperative workup further obscuring diagnosis. This disease represents a unique subset of PCs that are rarely addressed in the literature
Secular spin-down of the AMP XTE J1751-305
Context. Of the 13 known accreting millisecond pulsars, only a few showed
more than one outburst during the RXTE era. XTE J1751-305 showed, after the
main outburst in 2002, other three dim outbursts. We report on the timing
analysis of the latest one, occurred on October 8, 2009 and serendipitously
observed from its very beginning by RXTE. Aims. The detection of the pulsation
during more than one outburst permits to obtain a better constraint of the
orbital parameters and their evolution as well as to track the secular spin
frequency evolution of the source. Methods. Using the RXTE data of the last
outburst of the AMP XTE J1751-305, we performed a timing analysis to improve
the orbital parameters. Because of the low statistics, we used an epoch folding
search technique on the whole data set to improve the local estimate of the
time of ascending node passage. Results. Using this new orbital solution we
epoch folded data obtaining three pulse phase delays on a time span of 1.2
days, that we fitted using a constant spin frequency model. Comparing this
barycentric spin frequency with that of the 2002 outburst, we obtained a
secular spin frequency derivative of -0.55(12) x 10^{-14} Hz s^{-1}. In the
hypothesis that the secular spin-down is due to a rotating magneto-dipole
emission, consistently with what is assumed for radio pulsars, we estimate the
pulsar's magnetic dipole value. We derive an estimate of the magnetic field
strength at the polar cap of B_{PC} = 4.0(4) x 10^8 Gauss, for a neutron star
mass of 1.4M\odot, assuming the Friedman Pandharipande Skyrme equation of
state.Comment: 7 pages, 4 figures, accepted for publication on A&
- …