Short-time heat diffusion in compact domains with discontinuous transmission boundary conditions

Claude Bardos; Denis Grebenkov; Anna Rozanova-Pierrat

doi:10.1142/S0218202516500032

Short-time heat diffusion in compact domains with discontinuous transmission boundary conditions

Claude Bardos
, Denis Grebenkov
, Anna Rozanova-Pierrat

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

Abstract

We consider a heat problem with discontinuous diffusion coefficients and discontinuous transmission boundary conditions with a resistance coefficient. For all bounded (ε, σ)-domains ℝ>n with a d-set boundary (for instance, a self-similar fractal), we find the first term of the small-time asymptotic expansion of the heat content in the complement of and also the second-order term in the case of a regular boundary. The asymptotic expansion is different for the cases of finite and infinite resistance of the boundary. The derived formulas relate the heat content to the volume of the interior Minkowski sausage and present a mathematical justification to the de Gennes' approach. The accuracy of the analytical results is illustrated by solving the heat problem on prefractal domains by a finite elements method.

Original language	English
Pages (from-to)	59-110
Number of pages	52
Journal	Mathematical Models and Methods in Applied Sciences
Volume	26
Issue number	1
DOIs	https://doi.org/10.1142/S0218202516500032
Publication status	Published - 1 Jan 2016

Keywords

Heat content
Minkowski sausage
discontinuous transmission condition

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10.1142/S0218202516500032

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abstract = "We consider a heat problem with discontinuous diffusion coefficients and discontinuous transmission boundary conditions with a resistance coefficient. For all bounded (ε, σ)-domains ℝ>n with a d-set boundary (for instance, a self-similar fractal), we find the first term of the small-time asymptotic expansion of the heat content in the complement of and also the second-order term in the case of a regular boundary. The asymptotic expansion is different for the cases of finite and infinite resistance of the boundary. The derived formulas relate the heat content to the volume of the interior Minkowski sausage and present a mathematical justification to the de Gennes' approach. The accuracy of the analytical results is illustrated by solving the heat problem on prefractal domains by a finite elements method.",

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author = "Claude Bardos and Denis Grebenkov and Anna Rozanova-Pierrat",

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T1 - Short-time heat diffusion in compact domains with discontinuous transmission boundary conditions

AU - Bardos, Claude

AU - Grebenkov, Denis

AU - Rozanova-Pierrat, Anna

PY - 2016/1/1

Y1 - 2016/1/1

N2 - We consider a heat problem with discontinuous diffusion coefficients and discontinuous transmission boundary conditions with a resistance coefficient. For all bounded (ε, σ)-domains ℝ>n with a d-set boundary (for instance, a self-similar fractal), we find the first term of the small-time asymptotic expansion of the heat content in the complement of and also the second-order term in the case of a regular boundary. The asymptotic expansion is different for the cases of finite and infinite resistance of the boundary. The derived formulas relate the heat content to the volume of the interior Minkowski sausage and present a mathematical justification to the de Gennes' approach. The accuracy of the analytical results is illustrated by solving the heat problem on prefractal domains by a finite elements method.

AB - We consider a heat problem with discontinuous diffusion coefficients and discontinuous transmission boundary conditions with a resistance coefficient. For all bounded (ε, σ)-domains ℝ>n with a d-set boundary (for instance, a self-similar fractal), we find the first term of the small-time asymptotic expansion of the heat content in the complement of and also the second-order term in the case of a regular boundary. The asymptotic expansion is different for the cases of finite and infinite resistance of the boundary. The derived formulas relate the heat content to the volume of the interior Minkowski sausage and present a mathematical justification to the de Gennes' approach. The accuracy of the analytical results is illustrated by solving the heat problem on prefractal domains by a finite elements method.

KW - Heat content

KW - Minkowski sausage

KW - discontinuous transmission condition

U2 - 10.1142/S0218202516500032

DO - 10.1142/S0218202516500032

M3 - Article

AN - SCOPUS:84947017893

SN - 0218-2025

VL - 26

SP - 59

EP - 110

JO - Mathematical Models and Methods in Applied Sciences

JF - Mathematical Models and Methods in Applied Sciences

IS - 1

ER -

Short-time heat diffusion in compact domains with discontinuous transmission boundary conditions

Abstract

Keywords

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