Výsledky vyhledávání - "McDonald, James P."

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A gallery of maximum-entropy distributions: 14 and 21 moments

Autor: Boccelli, Stefano, Giroux, Fabien, McDonald, James G.

This work explores the different shapes that can be realized by the one-particle velocity distribution functions (VDFs) associated with the fourth-order maximum-entropy moment method. These distributions take the form of an exponential of a polynomia

Externí odkaz: http://arxiv.org/abs/2402.18453

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Numerical simulation of rarefied supersonic flows using a fourth-order maximum-entropy moment method with interpolative closure

Autor: Boccelli, Stefano, Kaufmann, Willem, Magin, Thierry E., McDonald, James G.

Maximum-entropy moment methods allow for the modelling of gases from the continuum regime to strongly rarefied conditions. The development of approximated solutions to the entropy maximization problem has made these methods computationally affordable

Externí odkaz: http://arxiv.org/abs/2401.15233

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Shock induced ignition and transition to detonation in the presence of mechanically induced non-linear acoustic forcing

Autor: Wang, Wentian, McDonald, James, Radulescu, Matei Ioan

We address the problem of shock induced ignition and transition to detonation in a reactive medium in the presence of mechanically induced fluctuations by a moving oscillating piston. For the inert problem prior to ignition, we provide a closed form

Externí odkaz: http://arxiv.org/abs/2312.05443

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Modelling high-Mach-number rarefied crossflows past a flat plate using the maximum-entropy moment method

Autor: Boccelli, Stefano, Parodi, Pietro, Magin, Thierry E., McDonald, James G.

The 10 and 14-moment maximum-entropy methods are applied to the study of high-Mach-number non-reacting crossflows past a flat plate at large degrees of rarefaction. The moment solutions are compared to particle-based kinetic solutions, showing a vary

Externí odkaz: http://arxiv.org/abs/2308.00551

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Realizability conditions for relativistic gases with a non-zero heat flux

Autor: Boccelli, Stefano, McDonald, James G.

This work introduces a limitation on the minimum value that can be assumed by the energy of a relativistic gas in the presence of a non-zero heat flux. Such a limitation arises from the non-negativity of the particle distribution function, and is fou

Externí odkaz: http://arxiv.org/abs/2208.07890

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14-moment maximum-entropy modelling of collisionless ions for Hall thruster discharges

Autor: Boccelli, Stefano, McDonald, James G., Magin, Thierry E.

Ions in Hall effect thrusters are often characterized by a low collisionality. In the presence of acceleration fields and azimuthal electric field waves, this results in strong deviations from thermodynamic equilibrium, introducing kinetic effects. T

Externí odkaz: http://arxiv.org/abs/2202.04159

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A 14-moment maximum-entropy description of electrons in crossed electric and magnetic fields

Autor: Boccelli, Stefano, Giroux, Fabien, Magin, Thierry E., Groth, Clinton P. T., McDonald, James G.

Publikováno v: Physics of Plasmas 27, 123506 (2020)

A 14-moment maximum-entropy system of equations is applied to the description of non-equilibrium electrons in crossed electric and magnetic fields and in the presence of low collisionality, characteristic of low-temperature plasma devices. The flexib

Externí odkaz: http://arxiv.org/abs/2103.14406

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