A technique to derive the analytical form of convex envelopes for some bivariate functions

The successful observation of superconducting flux lines (fluxons) in thin specimens both in conventional and high Tc superconductors by means of Lorentz and electron holography methods has presented several problems concerning the interpretation of the experimental results. The first approach has been to model the fluxon as a bundle of flux tubes perpendicular to the specimen surface (for which the electron optical phase shift has been found in analytical form) with a magnetic flux distribution given by the London model, which corresponds to a flux line having an infinitely small normal core. In addition to being described by an analytical expression, this model has the advantage that a single parameter, the London penetration depth, completely characterizes the superconducting fluxon. The obtained results have shown that the most relevant features of the experimental data are well interpreted by this model. However, Clem has proposed another more realistic model for the fluxon core that removes the unphysical limitation of the infinitely small normal core and has the advantage of being described by an analytical expression depending on two parameters (the coherence length and the London depth).

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SH-Wave Scattering From the Interface Defect

Advances in Cyber-Physical Systems ◽

10.23939/acps2020.01.045 ◽

2017 ◽

Vol 5 (1) ◽

pp. 45-50

Author(s):

Myron Voytko ◽

◽

Yaroslav Kulynych ◽

Dozyslav Kuryliak

Keyword(s):

Half Space ◽

Wave Diffraction ◽

Scattered Field ◽

Wave Scattering ◽

Elastic Layer ◽

Analytical Form ◽

Structure Parameters ◽

Sh Wave ◽

Interface Defect ◽

Hopf Method

The problem of the elastic SH-wave diffraction from the semi-infinite interface defect in the rigid junction of the elastic layer and the half-space is solved. The defect is modeled by the impedance surface. The solution is obtained by the Wiener- Hopf method. The dependences of the scattered field on the structure parameters are presented in analytical form. Verifica¬tion of the obtained solution is presented.

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Conversion Square Algorithm Rectangle (Synthesis) [Analytical Form]

SSRN Electronic Journal ◽

10.2139/ssrn.3169213 ◽

2010 ◽

Author(s):

Constantinos Challoumis

Keyword(s):

Analytical Form

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Mathematical Axiomatic Physics (Analytical form)

SSRN Electronic Journal ◽

10.2139/ssrn.3278346 ◽

2018 ◽

Cited By ~ 4

Author(s):

Constantinos Challoumis

Keyword(s):

Analytical Form

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Mass transfer in heterogeneous system enzyme-substrate; Approximate analytical model for the case of liquid substrate-immobilized enzyme

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19823013 ◽

1982 ◽

Vol 47 (11) ◽

pp. 3013-3018

Author(s):

František Kaštánek ◽

Jindřich Zahradník ◽

Germanico Ocampo

Keyword(s):

Mass Transfer ◽

Heterogeneous System ◽

Immobilized Enzyme ◽

Enzymatic Reaction ◽

Analytical Form ◽

Approximate Model ◽

Basic Type ◽

Reaction Interface ◽

Enzyme Substrate ◽

Flow Intensity

Calculation procedure is suggested for flow intensity of substrate toward reaction interface of immobilized enzyme at simultaneous effect of enzymatic reaction and internal diffusion. The approximate model is presented in an analytical form for the basic type of Michaelis-Menten kinetics and for the case of inhibition in excess of substrate.

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Temperature Dependences in the O + OH → O2 + H Reaction. Quasiclassical Trajectory Calculation

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19930234 ◽

1993 ◽

Vol 58 (2) ◽

pp. 234-243 ◽

Cited By ~ 4

Author(s):

Viliam Klimo ◽

Martina Bittererová ◽

Stanislav Biskupič ◽

Ján Urban ◽

Miroslav Micov

Keyword(s):

Temperature Dependence ◽

Energy Surface ◽

Analytical Form ◽

Mean Values ◽

Quantum Numbers ◽

Mean Lifetime ◽

Temperature Dependences ◽

Quasiclassical Trajectory Calculation ◽

The Mean ◽

Combustion Processes

The reaction O + OH → O2 + H in conditions of combustion of hydrocarbons and polymers was modelled by using the method of quasiclassical trajectories. The potential energy surface was determined by the multiconfiguration interaction method and fitted with the analytical form of the extended LEPS function. Attention was paid to the mean values of the vibrational and rotational quantum numbers of O2 molecules and their temperature dependence. The temperature dependence of the mean lifetime of the OOH collision complex was also examined. The calculated rate constants were analyzed and compared with the experimental data over the temperature region of the combustion processes.

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Laser Assisted Dirac Electron in a Magnetized Annulus

Symmetry ◽

10.3390/sym13040642 ◽

2021 ◽

Vol 13 (4) ◽

pp. 642

Author(s):

Emilio Fiordilino

Keyword(s):

Magnetic Field ◽

Analytical Form ◽

Relative Energy ◽

Radial Force ◽

Rate Of Change ◽

Orthogonal Direction ◽

Linearly Polarized ◽

Dirac Electron ◽

A Charge ◽

Stretching Effect

We study the behaviour of a charge bound on a graphene annulus under the assumption that the particle can be treated as a massless Dirac electron. The eigenstates and relative energy are found in closed analytical form. Subsequently, we consider a large annulus with radius ρ∈[5000,10,000]a0 in the presence of a static magnetic field orthogonal to its plane and again the eigenstates and eigenenergies of the Dirac electron are found in both analytical and numerical form. The possibility of designing filiform currents by controlling the orbital angular momentum and the magnetic field is shown. The currents can be of interest in optoelectronic devices that are controlled by electromagnetic radiation. Moreover, a small radial force acts upon the annulus with a stretching effect. A linearly polarized electromagnetic field propagating in the orthogonal direction is added; the time evolution of the operators show that the acceleration of the electron is proportional to the rate of change of the spin of the particle.

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