Study of a degenerate non-elliptic equation to model plasma heating - Inria - Institut national de recherche en sciences et technologies du numérique
Article Dans Une Revue ESAIM: Mathematical Modelling and Numerical Analysis Année : 2023

Study of a degenerate non-elliptic equation to model plasma heating

Résumé

In this manuscript, we study solutions to resonant Maxwell's equations in heterogeneous plasmas. We concentrate on the phenomenon of upper-hybrid heating, which occurs in a localized region where electromagnetic waves transfer energy to the particles. In the 2D case, it can be modelled mathematically by the partial differential equation − div (α∇u) − ω 2 u = 0, where the coefficient α is a smooth, sign-changing, real-valued function. Since the locus of the sign change is located within the plasma, the equation is non-elliptic, and degenerate. On the other hand, using the limiting absorption principle, one can build a family of elliptic equations that approximate the degenerate equation. Then, a natural question is to relate the solution of the degenerate equation, if it exists, to the family of solutions of the elliptic equations. For that, we assume that the family of solutions converges to a limit, which can be split into a regular part and a singular part, and that this limiting absorption solution is governed by the non-elliptic equation introduced above. One of the difficulties lies in the definition of appropriate norms and function spaces in order to be able to study the non-elliptic equation and its solutions. As a starting point, we revisit a prior work [13] on this topic by A. Nicolopoulos, M. Campos Pinto, B. Després and P. Ciarlet Jr., who proposed a variational formulation for the plasma heating problem. We improve the results they obtained, in particular by establishing existence and uniqueness of the solution, by making a different choice of function spaces. Also, we propose a series a numerical tests, comparing the numerical results of Nicolopoulos et al to those obtained with our numerical method, for which we observe better convergence.
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Dates et versions

hal-04152267 , version 1 (05-07-2023)

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  • HAL Id : hal-04152267 , version 1

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Patrick Ciarlet, Maryna Kachanovska, Etienne Peillon. Study of a degenerate non-elliptic equation to model plasma heating. ESAIM: Mathematical Modelling and Numerical Analysis, In press. ⟨hal-04152267⟩
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