Periodic variations of Auger energy maximum distribution following He 2+ + H 2 collisions: A complete analogy with photon interferences

Abstract Nambu field theory, originated by Névir and Blender for incompressible flows, is generalized to establish a unified energy–vorticity theory of ideal fluid mechanics. Using this approach, the degeneracy of the corresponding noncanonical Poisson bracket—a characteristic property of Hamiltonian fluid mechanics—can be replaced by a nondegenerate bracket. An energy–vorticity representation of the quasigeostrophic theory and of multilayer shallow-water models is given, highlighting the fact that potential enstrophy is just as important as energy. The energy–vorticity representation of the hydrostatic adiabatic system on isentropic surfaces can be written in complete analogy to the shallow-water equations using vorticity, divergence, and pseudodensity as prognostic variables. Furthermore, it is shown that the Eulerian equation of motion, the continuity equation, and the first law of thermodynamics, which describe the nonlinear evolution of a 3D compressible, adiabatic, and nonhydrostatic fluid, can be written in Nambu representation. Here, trilinear energy–helicity, energy–mass, and energy–entropy brackets are introduced. In this model the global conservation of Ertel’s potential enstrophy can be interpreted as a super-Casimir functional in phase space. In conclusion, it is argued that on the basis of the energy–vorticity theory of ideal fluid mechanics, new numerical schemes can be constructed, which might be of importance for modeling coherent structures in long-term integrations and climate simulations.

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Theory Design Research and the Application Prospect of the Future for the Ever Moving Car

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.456.142 ◽

2013 ◽

Vol 456 ◽

pp. 142-145

Author(s):

Guo Qiang Cao ◽

Yuan Ji Li ◽

Jiang Ning Liu

Keyword(s):

Wind Power ◽

Power Loss ◽

Electromagnetic Induction ◽

Energy Recovery ◽

Design Research ◽

Automobile Driving ◽

The Other ◽

Induction Principle ◽

Energy Maximum ◽

Set Up

Using faraday electromagnetic induction principle will car each wheel as a generator. For car generates its own energy recovery; In the front of car set up a blade, It can recovery the wind power what automobile driving produced, For wind power generation, So that it can recover the energy maximum for the car itself. Because of the two kinds of energy all are car generates its own energy, so it can not recovery completely, in addition to there is power loss in the other part of the car, So it needs to the energy loss and power loss for supplement, I choose the solar energy used as supplementary energy that finally achieve the purpose of "ever moving".

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Prediction of Sand Thickness Using Seismic Attributes Based on BP-Neural Network

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.524-527.180 ◽

2012 ◽

Vol 524-527 ◽

pp. 180-183

Author(s):

Feng Gao

Keyword(s):

Neural Network ◽

Prediction Model ◽

Bp Neural Network ◽

Seismic Attributes ◽

Bp Network ◽

Sand Body ◽

Precise Prediction ◽

Energy Maximum ◽

Bp Model ◽

Rms Amplitude

Total energy, maximum peak amplitude and RMS amplitude are sensitive to sand body, and they are non-linear relations with sand thickness. In this study, a three-layer BP neural network is employed to build the prediction model. Nine samples were analyzed by three-layer BP network. The relationships were produced by BP network between sand thickness and the three seismic attributes. The precise prediction results indicate that the three-layer BP network based modeling is a practically very useful tool in prediction sand thickness. The BP model provided better accuracy in prediction than other methods.

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Design and Realization of Solar Energy Maximum Power Point Automatic Tracking System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.339.533 ◽

2013 ◽

Vol 339 ◽

pp. 533-538

Author(s):

Gang Wang

Keyword(s):

Solar Energy ◽

Wind Velocity ◽

Tracking System ◽

Maximum Power ◽

Control Mode ◽

Driving Mechanism ◽

Maximum Power Point ◽

Point Tracking ◽

Energy Maximum ◽

Power Point

Aiming at the low generating efficiency of the current solar energy generating system, solar energy maximum power point tracking control system based on STC89C52 is designed and made. The photoelectric detection and tracking is adopted as the control mode in the system. By using stepping motor as driving mechanism, comprehensive trace of the sun is realized by controlling the movement of tracking mechanism in the horizontal and pitching directions. Based on this, real-time detection of wind velocity and change of wind direction is realized by wind velocity and direction transducer which is equipped on the tracking mechanism, which makes the system automatically avoid the typhoon above level 8 to weaken the damage to panel by the storm. The experiment results of model machine indicate that the system has reliable performance which can satisfy the need of auto-solar track, it can also make the panel orient towards east again after darkness to realize daily circular run and it is of relatively high practical value.

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Optimization for Minimum Potential Energy, Maximum Rigidity and Minimum Deformability

Criteria and Methods of Structural Optimization ◽

10.1007/978-94-009-1159-8_2 ◽

1984 ◽

pp. 9-87

Author(s):

Andrej M. Brandt ◽

Wojciech Dzieniszewski ◽

Stefan Jendo ◽

Wojciech Marks ◽

Stefan Owczarek ◽

...

Keyword(s):

Potential Energy ◽

Minimum Potential Energy ◽

Minimum Potential ◽

Energy Maximum

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Elementare Herleitung der Dirac-Gleichung / Elementary Derivation of the Dirac Equation

Zeitschrift für Naturforschung A ◽

10.1515/zna-1978-1116 ◽

1978 ◽

Vol 33 (11) ◽

pp. 1378-1379 ◽

Cited By ~ 5

Author(s):

Hans Sallhofer

Keyword(s):

Dirac Equation ◽

Schrödinger Equation ◽

Schrodinger Equation ◽

Classical Equation ◽

Inhomogeneous Media ◽

Elementary Derivation ◽

Complete Analogy

As is well known, the Schrödinger equation can be derived by suitably arranging the refraction in the classical equation for light inhomogeneous media. In this paper it is shown that one may derive the Dirac equation in complete analogy by arranging for the refraction in the electrodynamics of inhomogeneous media.

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Solving q-Virasoro constraints

Letters in Mathematical Physics ◽

10.1007/s11005-019-01216-5 ◽

2019 ◽

Vol 110 (1) ◽

pp. 179-210 ◽

Cited By ~ 4

Author(s):

Rebecca Lodin ◽

Aleksandr Popolitov ◽

Shamil Shakirov ◽

Maxim Zabzine

Keyword(s):

Wilson Loop ◽

Gauge Theories ◽

Free Field ◽

Point Of View ◽

Difference Operators ◽

Highest Weight ◽

Virasoro Constraints ◽

Zero Momentum ◽

Complete Analogy ◽

Full Derivative

Abstract We show how q-Virasoro constraints can be derived for a large class of (q, t)-deformed eigenvalue matrix models by an elementary trick of inserting certain q-difference operators under the integral, in complete analogy with full-derivative insertions for $$\beta $$ β -ensembles. From free field point of view, the models considered have zero momentum of the highest weight, which leads to an extra constraint $$T_{-1} \mathcal {Z} = 0$$ T - 1 Z = 0 . We then show how to solve these q-Virasoro constraints recursively and comment on the possible applications for gauge theories, for instance calculation of (supersymmetric) Wilson loop averages in gauge theories on $$D^2 \times S^1$$ D 2 × S 1 and $$S^3$$ S 3 .

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Factors influencing ascospore germination in three species of Sporormiella

Canadian Journal of Botany ◽

10.1139/b77-218 ◽

1977 ◽

Vol 55 (14) ◽

pp. 1908-1914 ◽

Cited By ~ 1

Author(s):

Shirin Asina ◽

Kanti Jain ◽

R. F. Cain

Keyword(s):

Sodium Acetate ◽

Germ Tube ◽

Optimal Level ◽

Physical Factors ◽

Optimal Temperature ◽

Factors Influencing ◽

Ascospore Germination ◽

Energy Maximum ◽

Ph Range ◽

Exogenous Source

Ascospore germination of Sporormiella intermedia, S. isomera, and S. minima requires sodium acetate as an exogenous source of energy. Maximum ascospore germination occurs at a concentration of 5.0 g/ℓ of sodium acetate in the medium. Among the physical factors studied, the pH of the medium was found to be crucial: germination occurred within a very narrow pH range (5.0–7.0) and reached an optimal level at pH 5.5. The ascospores of S. intermedia and S. isomera germinated between 10 and 30 °C while those of S. minima germinated between 10 and 40 °C. The optimal temperature varied for each species (10–20 °C for S. intermedia; 20–25 °C for S. isomera; 30–35 °C for S. minima). At 30 °C and above, a globose vesicle formed in all three species before the formation of the germ tube. Light had no influence on ascospore germination, nor were external supplies of nitrogen or vitamins necessary for spore germination.

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DEFORMED DENSITY MATRIX AND GENERALIZED UNCERTAINTY RELATION IN THERMODYNAMICS

Modern Physics Letters A ◽

10.1142/s0217732304012812 ◽

2004 ◽

Vol 19 (01) ◽

pp. 71-81 ◽

Cited By ~ 12

Author(s):

A. E. SHALYT-MARGOLIN ◽

A. YA. TREGUBOVICH

Keyword(s):

Statistical Mechanics ◽

Density Matrix ◽

Uncertainty Relation ◽

Planck Scale ◽

Additional Term ◽

Temperature Limit ◽

Quantum Mechanical ◽

Uncertainty Relations ◽

Primary Object ◽

Complete Analogy

A generalization of the thermodynamic uncertainty relations is proposed. It is done by introducing an additional term proportional to the interior energy into the standard thermodynamic uncertainty relation that leads to existence of the lower limit of inverse temperature. In our opinion the approach proposed may lead to the proofs of these relations. To this end, the statistical mechanics deformation at Planck scale. The statistical mechanics deformation is constructed by analogy to the earlier quantum mechanical results. As previously, the primary object is a density matrix, but now the statistical one. The obtained deformed object is referred to as a statistical density pro-matrix. This object is explicitly described, and it is demonstrated that there is a complete analogy in the construction and properties of quantum mechanics and statistical density matrices at Planck scale (i.e. density pro-matrices). It is shown that an ordinary statistical density matrix occurs in the low-temperature limit at temperatures much lower than the Planck's. The associated deformation of a canonical Gibbs distribution is given explicitly.

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LOCALIZED EXCITONS IN SELF-ASSEMBLED InxGa1-xN QUANTUM DOTS

Modern Physics Letters B ◽

10.1142/s0217984905008591 ◽

2005 ◽

Vol 19 (12) ◽

pp. 589-598

Author(s):

XIAN-QI DAI ◽

FENG-ZHEN HUANG ◽

JUN-JIE SHI

Keyword(s):

Quantum Dots ◽

Binding Energy ◽

Variational Approach ◽

Structural Parameters ◽

Exciton Binding Energy ◽

Mass Approximation ◽

Energy Maximum ◽

Localized Excitons ◽

The Relationship ◽

Good Agreement

Within the framework of effective-mass approximation, the exciton states localized in cylindrical InGaN quantum dots (QDs) are investigated using a variational approach. The relationship between the exciton states and structural parameters of QDs with radius R and height L are studied in detail. The numerical results show that the exciton binding energy is sensitive to the ratio of R/L for a QD with a given volume. There is a maximum in the binding energy, where the electrons and holes are the most efficiently confined in the QDs with special structural parameters. The binding energy maximum can be obtained at about L = 1.7 nm for different QD volumes. The exciton binding energy and emission wavelength depend sensitively on structural parameters and the In content in the In x Ga 1-x N active layer. Our calculated emission wavelengths are in good agreement with experimental data.

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