1,049 research outputs found
Generalized qudit Choi maps
Following the linear programming prescription of Ref. \cite{PRA72}, the
Bell diagonal entanglement witnesses are provided. By using
Jamiolkowski isomorphism, it is shown that the corresponding positive maps are
the generalized qudit Choi maps. Also by manipulating particular
Bell diagonal separable states and constructing corresponding bound entangled
states, it is shown that thus obtained BDEW's (consequently qudit
Choi maps) are non-decomposable in certain range of their parameters.Comment: 22 page
Impalement Thoracoabdominal Trauma Secondary to Falling on Metallic (Iron) Bars: An Extremely Rare and Unique Case
Introduction: Penetrating thoracoabdominal injuries are potentially life threatening due to the associated hemorrhagic shock and visceral injury. Through and through penetrating injury with polytrauma is rarely encountered.
Case Presentation: Here we report on a 25-year-old male with penetrating thoracoabdominal injury caused by a metallic (iron) bar projecting from a pillar of a construction site after he fell down from a height.
Conclusions: Anesthetic and surgical management was difficult due to the inability to position in supine and rapidly progressing hemorrhagic shock. Surgical management for extraction of this iron bar and intensive monitoring and resuscitation resulted in an uneventful successful outcome
Application of INAA to determine major elements concentrations in head hair of street children of Isfahan city, Iran
The street children phenomena and the number of street children is an increasing social problem in Isfahan and other big and growing towns. Because of the number of street children and the way that they affect society in childhood and when they become old, it is important to study their health and have baseline data on theire health problems. Hair element analysis is an important tool in the nutritional and environmental pollutions and measuring pollutions and measuring elemental concentrations in recently-grown hair provides a good way of studing their health. This study aimed to assess major element concentrations in the hair of street children in Isfahan using instrumental neutron activation analysis method. Six major elements (Ca, Cl, K, Mg, Na and S) of 17 Iranian street children (Isfahan) were determined. Data analysis found different profiles of the concentrations of Ca, K, Mg and S in samples. These results were discussed with reference to show of nutritional and environmental effects
Control of surface plasmon resonances in dielectrically coated proximate gold nanoparticles immobilized on a substrate
We present experimental and theoretical results for the changes in the optical-plasmon resonance of gold-nanoparticle dimers immobilized on a surface when coated with an organic dielectric material. The plasmon band of a nanoparticle dimer shifts to a higher wavelength when the distance between neighboring particles is decreased, and a well-separated second peak appears. This phenomenon is called cross-talk. We find that an organic coating lets cross-talk start at larger separation distances than for uncoated dimers by bridging the gap between immobilized nanoparticles (creating optical clusters). We study this optical clustering effect as a function of the polarization of the applied light, of the inter-particle distance, of the surrounding environment, and of the optical properties of the coating layer. Theoretical discrete-dipole approximation calculations support the experimental absorption spectroscopy results of gold nanoparticles on glass substrates and on optical waveguides
A biodistribution study of Hemiscorpius lepturus scorpion venom and available polyclonal antivenom in rats
The purpose of the present study was to investigate the biodistribution profile of the venom of Hemiscorpius lepturus, the most dangerous scorpion in Iran. Blood and tissue samples were taken at various predetermined intervals during a 400-minute period for the venom and a 360-minute period for the antivenom in rats. The radio-iodination was carried out using the chloramine-T method. The results showed that the descending order of venom uptake was skin, kidneys and intestine, respectively. The descending order of polyclonal antivenom uptake was kidneys, intestine, heart and lungs. The calculated pharmacokinetic parameters of the venom were Telimination half-life = 521.5 ± 12.6 minutes; Vd/F (apparent volume of distribution) = 14.9 ± 3.3 mL; clearance (CL/F, apparent total clearance of the drug from plasma) 0.02 ± 0.005 mL/minute and for the antivenom Telimination half-life = 113.7 ± 7.4 minutes; Vd/F = 13 ± 1.2 mL and CL/F 0.08 ± 0.01 mL/minute. The pharmacokinetics profile comparison of the venom with that of the antivenom shows that serotherapy may be more effective if administered within 2-4 hours following envenomation by H. lepturus
Investigating the role of temperature on thermal stress and fracture propagation in geothermal systems
Available geothermal energy extractable by conventional techniques is in dry and comparatively impermeable
rocks. Enhanced Geothermal System (EGS) technologies enhance geothermal resources in the hot dry rock (HDR) through fracture
operations, usually through hydro-shearing. Large scale deployment of geothermal power production requires the demonstration of
successful EGS projects extracting heat from reservoirs constituting a variety of geological conditions. In this part, numerical
models are very important to show how geothermal power plant operations can be less risky and safer. Owing the fact that, some
major challenges in these operations are interaction between shear and tensile fractures with natural faults. These interactions can
be seen in two different cases, either these faults are badly oriented or these faults are fill in pore fluids or gases which are mainly
high pressure. Fluids and gases are important on account for because of the fact that these pore fluids can over whelmed the
injection pressure and cause well blow out. Furthermore, to prevent these operational hazards, we use field data and analysis in
combination with experimental tests and numerical/analytical models with finite element method software such as COMSOL
Multiphysics. Further work will be required for improving enhanced geothermal production by optimizing hydro-shearing
practices
Influence of the oxygen partial pressure on the growth and optical properties of RF-sputtered anatase TiO2 thin films
Titanium dioxide (TiO2) films with thicknesses around 300 nm were deposited on glass substrates by
reactive radio frequency (RF) magnetron sputtering at constant RF sputtering power (200 W), high sputtering pressure and room temperature. The effects of the oxygen presence on the growth and properties
of the films were investigated using mixtures of Ar and O2 with different O2/(Ar + O2) ratios (from 0.0 to
0.3) during the sample deposition. The crystalline properties and surface morphology were characterized
using X-ray diffraction (XRD) and atomic force microscopy (AFM), respectively. The optical properties
were studied by ultraviolet–visible–near infrared (UV–Vis–NIR) spectroscopy, and the refractive index
and the thickness of the samples were obtained using the Swanepoel method. The obtained results indicate that all the TiO2 films grew with an anatase phase and with an improved crystallinity at O2/(Ar + O2)
= 0.2. However, AFM studies show that the grain size and surface roughness decrease as the O2/(Ar + O2)
ratio increases from 0.0 to 0.3. Moreover, a maximum refractive index was obtained for the sample prepared at O2/(Ar + O2) = 0.2
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