671 research outputs found
Investigation of the epitaxial growth of AIIIBV-N heterostructures for solar cell applications
The InGaAsN/GaAs heterostructures proposed in 1996 by Kondow et al. have been successfully used in telecom laser constructions on GaAs
substrate. Additionally, the InGaAsN with a bandgap of 1 eV are lattice matched to both GaAs and Ge for the nitrogen and indium contents of around
3 % and 9 %, respectively. These features make this semiconductor an ideal
candidate for high-efficiency multijunction solar cells (MJSCs) based on the
Ge/InGaAsN/GaAs/InGaP structure. The growth technology of the GaAsN
alloy-based diluted nitrides is very difficult because of the large miscibility gap
between GaAs and GaN.
When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/2097
The Binet-Legendre Metric in Finsler Geometry
For every Finsler metric we associate a Riemannian metric (called
the Binet-Legendre metric). The transformation is -stable
and has good smoothness properties, in contrast to previous constructions. The
Riemannian metric also behaves nicely under conformal or bilipshitz
deformation of the Finsler metric . These properties makes it a powerful
tool in Finsler geometry and we illustrate that by solving a number of named
Finslerian geometric problems. We also generalize and give new and shorter
proofs of a number of known results. In particular we answer a question of M.
Matsumoto about local conformal mapping between two Minkowski spaces, we
describe all possible conformal self maps and all self similarities on a
Finsler manifold. We also classify all compact conformally flat Finsler
manifolds, solve a conjecture of S. Deng and Z. Hou on the Berwaldian character
of locally symmetric Finsler spaces, and extend the classic result of H.C. Wang
about the maximal dimension of the isometry groups of Finsler manifolds to
manifolds of all dimensions.
Most proofs in this paper go along the following scheme: using the
correspondence we reduce the Finslerian problem to a similar
problem for the Binet-Legendre metric, which is easier and is already solved in
most cases we consider. The solution of the Riemannian problem provides us with
the additional information that helps to solve the initial Finslerian problem.
Our methods apply even in the absence of the strong convexity assumption
usually assumed in Finsler geometry. The smoothness hypothesis can also be
replaced by that of partial smoothness, a notion we introduce in the paper. Our
results apply therefore to a vast class of Finsler metrics not usually
considered in the Finsler literature.Comment: 33 pages, 5 figures. This version is slightly reduced fron versions 1
and 2. The paper has been published in Geometry & Topolog
Characterizations of quasitrivial symmetric nondecreasing associative operations
We provide a description of the class of n-ary operations on an arbitrary
chain that are quasitrivial, symmetric, nondecreasing, and associative. We also
prove that associativity can be replaced with bisymmetry in the definition of
this class. Finally we investigate the special situation where the chain is
finite
The evaluation of laser weldability of the third-generation advanced high strength steel
To meet the demands of vehicular safety and greenhouse gas emission reduction,
the automotive industry is increasingly using advanced high strength steels (AHSS) in the production
of the components. With the development of the new generation of AHSS, it is essential to study
their behavior towards manufacturing processes used in the automotive industry. For this purpose,
the welding capability of newly developed third-generation Gen3 980T steel was investigated using the
Nd:YAG (Neodymium:Yittrium Aluminum Garnet) laser-welding with different parameter conditions.
The analysis was made by uniaxial tensile tests, micro-hardness, Scanning Electron Microscopy (SEM)
and X-Ray Diffraction (XRD). The criteria used to evaluate the quality of the weld were the distance
between the fracture and the weld bead and the surface finish. A relationship between the quality of
the weld and the energy density was observed, expressed by a partial penetration for values below
the optimal, and by irregularities in the weld bead and a high number of spatters for the values above
the optimal.publishe
Fetal heart rate and fetal heart rate variability in Lipizzaner broodmares
Monitoring fetal heart rate (FHR) and fetal heart rate variability (FHRV) helps to understand and evaluate normal and pathological conditions in the foal. The aim of this study was to establish normal heart rate reference values for the ongoing equine pregnancy and to perform a heart rate variability (HRV) time-domain analysis in Lipizzaner mares. Seventeen middle- and late-term (days 121–333) pregnant Lipizzaner mares were examined using fetomaternal electrocardiography (ECG). The mean FHR (P = 0.004) and the standard deviation of FHR (P = 0.012) significantly decreased during the pregnancy. FHR ± SD values decreased from 115 ± 35 to 79 ± 9 bpm between months 5 and 11. Our data showed that HRV in the foal decreased as the pregnancy progressed, which is in contrast with the findings of earlier equine studies. The standard deviation of normal-normal intervals (SDNN) was higher (70 ± 25 to 166 ± 108 msec) than described previously. The root mean square of successive differences (RMSSD) decreased from 105 ± 69 to 77 ± 37 msec between the 5th and 11th month of gestation. Using telemetric ECG equipment, we could detect equine fetal heartbeat on day 121 for the first time. In addition, the large differences observed in the HR values of four mare-fetus pairs in four consecutive months support the assumption that there might be ‘high-HR’ and ‘low-HR’ fetuses in horses. It can be concluded that the analysis of FHR and FHRV is a promising tool for the assessment of fetal well-being but the applicability of these parameters in the clinical setting and in studs requires further investigation
Transabdominal ultrasonographic evaluation of fetal well-being in the late-term mare and cow
In the equine practice, attempts have been made to examine the fetus in the second and third trimester of pregnancy but all of the available methods have limitations. Until now, transabdominal ultrasonography has been regarded as the most informative examination. This method allows us to measure fetal heart rate, fetal activity as well as the quality and quantity of the fetal fluids. A modified biophysical profile for horses was used by several researchers in the USA from the 1990s as a gold standard. However, it is not sensitive enough and, in the authors’ experience, professionals can face difficulties during its application (e.g. for measuring aortic diameter and fetal breathing movements). In cows, this method was first used for this purpose by a Canadian research group in 2007. They reported that transabdominal ultrasound was promising but showed low sensitivity in this species. The present studies show that birth weight cannot be predicted from fetal aortic diameter measurement in cows as suggested by other researchers. Transabdominal ultrasound needs special equipment (2–3.5 MHz convex transducer) and basic ultrasonographic knowledge; however, we suggest that in most cases it can be performed with the dam placed in a stock and without shaving the examination area. The method provides useful information within 30–40 minutes, enabling the examiner to determine whether or not the fetus is alive and to recognise placentitis or twins. This technique also allows measuring the combined thickness of the uteroplacental unit, and the authors’ ongoing study showed higher normal values in Lipizzaner mares compared to values in other breeds. In conclusion, with the help of advanced techniques, simple and low-cost methods should be developed for the evaluation of the pregnant dam and its fetus to assess fetal viability in the veterinary practice
Silicon-plasmonic internal-photoemission detector for 40 Gbit/s data reception
Silicon-plasmonics enables the fabrication of active photonic circuits in CMOS technology with unprecedented operation speed and integration density. Regarding applications in chip-level optical interconnects, fast and efficient plasmonic photodetectors with ultrasmall footprints are of special interest. A particularly promising approach to silicon-plasmonic photodetection is based on internal photoemission (IPE), which exploits intrinsic absorption in plasmonic waveguides at the metal–dielectric interface. However, while IPE plasmonic photodetectors have already been demonstrated, their performance is still far below that of conventional high-speed photodiodes. In this paper, we demonstrate a novel class of IPE devices with performance parameters comparable to those of state-of-the-art photodiodes while maintaining footprints below 1 μm 2 . The structures are based on asymmetric metal–semiconductor–metal waveguides with a width of less than 75 nm. We measure record-high sensitivities of up to 0.12 A/W at a wavelength of 1550 nm. The detectors exhibit opto-electronic bandwidths of at least 40 GHz. We demonstrate reception of on–off keying data at rates of 40 Gbit/s
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