8,893 research outputs found
The correlation between the energy gap and the pseudogap temperature in cuprates: the YCBCZO and LSHCO case
The paper analyzes the influence of the hole density, the out-of-plane or
in-plane disorder, and the isotopic oxygen mass on the zero temperature energy
gap () for
(YCBCZO) and (LSHCO)
superconductors. It has been found that the energy gap is visibly correlated
with the value of the pseudogap temperature (). On the other hand,
no correlation between and the critical temperature
() has been found. The above results mean that the value of the
dimensionless ratio can vary very strongly
together with the chemical composition, while the parameter
does not change significantly. In the
paper, the analytical formula which binds the zero temperature energy gap and
the pseudogap temperature has been also presented.Comment: 7 pages, 4 figures, 3 table
Characteristics of the Eliashberg formalism on the example of high-pressure superconducting state in phosphor
The work describes the properties of the high-pressure superconducting state
in phosphor: GPa. The calculations were performed in
the framework of the Eliashberg formalism, which is the natural generalization
of the BCS theory. The exceptional attention was paid to the accurate
presentation of the used analysis scheme. With respect to the superconducting
state in phosphor it was shown that: (i) the observed not-high values of the
critical temperature ( K)
result not only from the low values of the electron - phonon coupling constant,
but also from the very strong depairing Coulomb interactions, (ii) the
inconsiderable strong - coupling and retardation effects force the
dimensionless ratios , , and - related to the
critical temperature, the order parameter, the specific heat and the
thermodynamic critical field - to take the values close to the BCS predictions.Comment: 6 pages, 6 figure
Simulation-Based Assessment of a Full-Scale Installed Quiet Landing Gear
Full-scale simulations of a Gulfstream G-III aircraft, performed in support of the NASA Acoustic Research Measurements flights, are presented to complement results discussed in earlier studies. The flow solver employed in those studies, Dassault Systmes lattice Boltzmann PowerFLOW, was also used during this investigation to conduct time-dependent simulations of the entire aircraft in landing configuration with a fully dressed landing gear. The high-fidelity simulations, performed at a Mach number of 0.23 and a Reynolds number of 10.5 106 based on mean aerodynamic chord, captured all relevant airframe noise sources. The computations were used to assess the aeroacoustic performance of the main landing gear, with and without noise reduction fairings installed, of a G-III aircraft equipped with Adaptive Compliant Trailing Edge technology and conventional Fowler flaps. To facilitate comparison of predicted noise signatures with effective perceived noise levels obtained from flight test measurements, the as-flown nose landing gear geometry, missing in our earlier studies, was added to the simulated G-III aircraft configurations. The high fidelity, synthetic data were post-processed using a Ffowcs-Williams and Hawkings integral approach to estimate farfield acoustic behavior, with pressures on the model solid surface or pressure and velocity components on a permeable surface enveloping the acoustic near field used as input
Airframe Noise Simulations of a Full-Scale Aircraft
Computational results for a full-scale simulation of a Gulfstream G-III aircraft are presented. In support of a NASA airframe noise flight test campaign, Exa Corporations lattice Boltzmann PowerFLOW solver was used to perform time-accurate simulations of the flow around a highly detailed, full-scale aircraft model. Free-air boundary conditions were used at a Mach number of 0.23 and a Reynolds number of 10.5 10(exp 6) based on mean aerodynamic chord. This paper documents the simulation campaign for the baseline aircraft configuration at several flight conditions, including multiple flap deflections and main landing gear deployed or retracted. The high-fidelity, synthetic data were post-processed using a Ffowcs-Williams and Hawkings integral approach to estimate farfield acoustic behavior, with pressures on the model solid surface or a permeable surface enveloping the acoustic near field used as input. The numerical approach, simulation attributes, and the effects of grid resolution, gear deployment, and multiple flap deflections, are discussed as well
Clustering as an example of optimizing arbitrarily chosen objective functions
This paper is a reflection upon a common practice of solving various types of learning problems by optimizing arbitrarily chosen criteria in the hope that they are well correlated with the criterion actually used for assessment of the results. This issue has been investigated using clustering as an example, hence a unified view of clustering as an optimization problem is first proposed, stemming from the belief that typical design choices in clustering, like the number of clusters or similarity measure can be, and often are suboptimal, also from the point of view of clustering quality measures later used for algorithm comparison and ranking. In order to illustrate our point we propose a generalized clustering framework and provide a proof-of-concept using standard benchmark datasets and two popular clustering methods for comparison
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