1,093 research outputs found
Bird mortality related to collisions with ski–lift cables: do we estimate just the tip of the iceberg?
Collisions with ski–lift cables are an important cause of death for grouse species living close to alpine ski resorts. As several biases may reduce the detection probability of bird carcasses, the mortality rates related to these collisions are generally underestimated. The possibility that injured birds may continue flying for some distance after striking cables represents a major source of error, known as crippling bias. Estimating the crippling losses resulting from birds dying far from the ski–lift corridors is difficult and it is usually assessed by systematic searches of carcasses on both sides of the ski–lifts. Using molecular tracking, we were able to demonstrate that a rock ptarmigan hen flew up to 600 m after striking a ski–lift cable, a distance preventing its detection by traditional carcasses surveys. Given the difficulty in conducting systematic searches over large areas surrounding the ski–lifts, only an experiment using radio–tagged birds would allow us to estimate the real mortality rate associated with cable collision
Antidepressant drugs and the response in the placebo group: the real problem lies in our understanding of the issue
In a recent paper, Horder and colleagues (Horder et al., 2010, J Psychopharmacol 25: 1277–1288) have suggested that the mainproblem in the Kirsch analysis is methodological. We argue that the results are similar irrespective of the method used. In our opinion the data suggest that placebo and drug effects are non-additive: antidepressants act independently of depression severity, while the placebo effect is present only in milder cases. While the response in the placebo group is due to unstable ‘noise’ and ‘artefacts’, the medication effect is reliable, valid and stable
An observational study of the 7 September 2005 Barcelona tornado outbreak
This paper presents an observational study of the tornado outbreak that took place on the 7 September 2005 in the Llobregat delta river, affecting a densely populated and urbanised area and the Barcelona International airport (NE Spain). The site survey confirmed at least five short-lived tornadoes. Four of them were weak (F0, F1) and the other one was significant (F2 on the Fujita scale). They started mostly as waterspouts and moved later inland causing extensive damage estimated in 9 million Euros, three injured people but fortunately no fatalities. Large scale forcing was provided by upper level diffluence and low level warm air advection. Satellite and weather radar images revealed the development of the cells that spawned the waterspouts along a mesoscale convergence line in a highly sheared and relatively low buoyant environment. Further analysis indicated characteristics that could be attributed indistinctively to non-supercell or to mini-supercell thunderstorms
Rotated stripe order and its competition with superconductivity in LaSrCuO
We report the observation of a bulk charge modulation in
LaSrCuO (LSCO) with a characteristic in-plane wave-vector
of (0.236, ), with =0.011 r.l.u. The transverse shift of
the ordering wave-vector indicates the presence of rotated charge-stripe
ordering, demonstrating that the charge ordering is not pinned to the Cu-O bond
direction. On cooling through the superconducting transition, we find an abrupt
change in the growth of the charge correlations and a suppression of the charge
order parameter indicating competition between the two orderings. Orthorhombic
LSCO thus helps bridge the apparent disparities between the behavior previously
observed in the tetragonal "214" cuprates and the orthorhombic yttrium and
bismuth-based cuprates and thus lends strong support to the idea that there is
a common motif to charge order in all cuprate families.Comment: 6 pages, 4 figue
Design Aspects on Winding of an MgB<sub>2</sub> Superconducting Generator Coil
AbstractGenerators based on superconducting rotor coils are considered for future large off-shore wind turbines for their low weight and compact design, and for their possibility to reduce costs. In the 10-20 K temperature range, MgB2 superconductors carry current densities 100 times higher than standard copper conductors at room temperature at one tenth of the wire cost per unit carried current. In the framework of the European project INNWIND.EU, an MgB2 superconducting generator pole will be designed, built and tested. Some of the design aspects of this work with emphasis on the winding process and associated coil insulation are discussed. An overall high current density in the coil is of crucial importance to obtain clear benefits compared to conventional solutions. The wire itself may be the most important parameter in that respect. However, the overall current density of the coil is also influenced by the thickness of the turn-to-turn electrical insulation. Here we discuss the impact of the insulation and suggest the use of a one-step winding process, employing wet-winding, where the applied epoxy also constitutes the insulation layer between turns. In this way the coil is densified by approximately 10% compared to the use of an additional, dedicated, electrical insulation like Kapton for wet-winding or glass-fibre for dry-winding followed by vacuum impregnation. We show the results of a trial winding of 500 m of MgB2 superconducting wire into a double pancake coil using the wet-winding technique. The coil is tested for contacts between the turns to evaluate the suggested one-step wet-winding process
Structure of a model dye/titania interface: Geometry of benzoate on rutile-TiO<sub>2 </sub>(110)(1×1)
Scanned-energy mode photoelectron
diffraction (PhD) and ab initio
density functional theory calculations have been employed to investigate
the adsorption geometry of benzoate ([C<sub>6</sub>H<sub>5</sub>COO]<sup>−</sup>) on rutile-TiO<sub>2</sub>(110)Â(1 × 1). PhD data
indicate that the benzoate moiety binds to the surface through both
of its oxygen atoms to two adjacent fivefold surface titanium atoms
in an essentially upright geometry. Moreover, its phenyl (C<sub>6</sub>H<sub>5</sub>−) and carboxylate ([−COO]<sup>−</sup>) groups are determined to be coplanar, being aligned along the [001]
azimuth. This experimental result is consistent with the benzoate
geometry emerging from DFT calculations conducted for laterally rather
well-separated adsorbates. At shorter interadsorbate distances, the
theoretical modeling predicts a more tilted and twisted adsorption
geometry, where the phenyl and carboxylate groups are no longer coplanar;
i.e., interadsorbate interactions influence the configuration of adsorbed
benzoate
Numerical modelling of micro-plasto-hydrodynamic lubrication in plane strip drawing
peer reviewedThis paper presents a new finite element model capable of predicting the onset of micro-plasto-hydrodynamic (MPH) lubrication and the amount of lubricant escaping from surface pockets in metal forming.
The present approach is divided in two steps. First, a simulation at the macroscopic level is conducted. Then, a second simulation highlighting microscopic liquid lubrication mechanisms is achieved using boundary conditions provided by the first model. These fluid-structure interaction computations are made possible through the use of the Arbitrary Lagrangian Eulerian (ALE) formalism.
The developed methodology is validated by comparison to experimental measurements conducted in plane strip drawing. The effect of physical parameters like the drawing speed, the die angle and the strip thickness reduction is investigated. The numerical results show good agreement with experiments
Glassy low-energy spin fluctuations and anisotropy gap in La<sub>1.88</sub>Sr<sub>0.12</sub>CuO<sub>4</sub>
We present high-resolution triple-axis neutron scattering studies of the
high-temperature superconductor La1.88Sr0.12CuO4 (Tc=27 K). The temperature
dependence of the low-energy incommensurate magnetic fluctuations reveals
distinctly glassy features. The glassiness is confirmed by the difference
between the ordering temperature TN ~ Tc inferred from elastic neutron
scattering and the freezing temperature Tf ~ 11 K obtained from muon spin
rotation studies. The magnetic field independence of the observed excitation
spectrum as well as the observation of a partial suppression of magnetic
spectral weight below 0.75 meV for temperatures smaller than Tf, indicate that
the stripe frozen state is capable of supporting a spin anisotropy gap, of a
magnitude similar to that observed in the spin and charge stripe ordered ground
state of La1.875Ba0.125CuO4. The difference between TN and Tf implies that the
significant enhancement in a magnetic field of nominally elastic incommensurate
scattering is caused by strictly in-elastic scattering -- at least in the
temperature range between Tf and Tc -- which is not resolved in the present
experiment. Combining the results obtained from our study of La1.88Sr0.12CuO4
with a critical reappraisal of published neutron scattering work on samples
with chemical composition close to p=0.12, where local probes indicate a sharp
maximum in Tf(p), we arrive at the view that the low-energy fluctuations are
strongly dependent on composition in this regime, with anisotropy gaps
dominating only sufficiently close to p=0.12 and superconducting spin gaps
dominating elsewhere.Comment: 8 pages, 4 figure
- …