Existence and approximation of a mixed formulation for thin film magnetization problems in superconductivity

John W. Barrett; Leonid Prigozhin

doi:10.1142/S0218202513500747

Existence and approximation of a mixed formulation for thin film magnetization problems in superconductivity

John W. Barrett, Leonid Prigozhin

The Swiss Institute for Dryland Environmental and Energy Research

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We present a new approximate Riemann solver (ARS) for the gas dynamics equations in Lagrangian coordinates and with general nonlinear pressure laws. The design of this new ARS relies on a generalized Suliciu pressure relaxation approach. It gives by construction the exact solutions for isolated entropic shocks and we prove that it is positive, Lipschitz-continuous and satisfies an entropy inequality. Finally, the ARS is used to develop either a classical entropy conservative Godunov-type method, or a Glimm-type (random sampling-based Godunov-type) method able to generate infinitely sharp discrete shock profiles. Numerical experiments are proposed to prove the validity of these approaches.

Original language	English
Pages (from-to)	991-1015
Number of pages	25
Journal	Mathematical Models and Methods in Applied Sciences
Volume	24
Issue number	5
DOIs	https://doi.org/10.1142/S0218202513500747
State	Published - 1 May 2014

Keywords

Bean model
Convergence analysis
Critical state problems
Existence
Finite elements
Mixed methods
Power law
Superconductivity
Thin film
Variational inequalities

ASJC Scopus subject areas

Modeling and Simulation
Applied Mathematics

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abstract = "We present a new approximate Riemann solver (ARS) for the gas dynamics equations in Lagrangian coordinates and with general nonlinear pressure laws. The design of this new ARS relies on a generalized Suliciu pressure relaxation approach. It gives by construction the exact solutions for isolated entropic shocks and we prove that it is positive, Lipschitz-continuous and satisfies an entropy inequality. Finally, the ARS is used to develop either a classical entropy conservative Godunov-type method, or a Glimm-type (random sampling-based Godunov-type) method able to generate infinitely sharp discrete shock profiles. Numerical experiments are proposed to prove the validity of these approaches.",

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AB - We present a new approximate Riemann solver (ARS) for the gas dynamics equations in Lagrangian coordinates and with general nonlinear pressure laws. The design of this new ARS relies on a generalized Suliciu pressure relaxation approach. It gives by construction the exact solutions for isolated entropic shocks and we prove that it is positive, Lipschitz-continuous and satisfies an entropy inequality. Finally, the ARS is used to develop either a classical entropy conservative Godunov-type method, or a Glimm-type (random sampling-based Godunov-type) method able to generate infinitely sharp discrete shock profiles. Numerical experiments are proposed to prove the validity of these approaches.

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KW - Convergence analysis

KW - Critical state problems

KW - Existence

KW - Finite elements

KW - Mixed methods

KW - Power law

KW - Superconductivity

KW - Thin film

KW - Variational inequalities

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Existence and approximation of a mixed formulation for thin film magnetization problems in superconductivity

Abstract

Keywords

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