SOME QUENCHING PROBLEMS FOR $\omega$-DIFFUSION EQUATIONS ON GRAPHS WITH A POTENTIAL AND A SINGULAR SOURCE
Print ISSN: 2319-1023 | Online ISSN: 2582-5461 | Total Downloads : 13
DOI: https://doi.org/10.56827/JRSMMS.2024.1102.2
Author :
EDJA Kouame B., (Universite Virtuelle de Cote dIvoire, 28 BP 536 Abidjan 28, COTE DIVOIRE)
DIABATE Paterne A. T. (Ecole Nationale Superieure de Statistique et dEconomie Appliquee, 08 BP 03 Abidjan 08, COTE DIVOIRE )
NDRI Kouakou C. (Institut National Polytechnique, Felix HOUPHOUET BOIGNY Yamoussoukro, BP 2444, COTE DIVOIRE)
TOURE Kidjegbo A. (Institut National Polytechnique, Felix HOUPHOUET BOIGNY Yamoussoukro, BP 2444, COTE DIVOIRE)
Abstract
In this paper, we study the quenching phenomenon related to the $\omega$-diffusion equation on graphs with a potential and a singular source
$$u_t(x,t)=\Delta_{\omega}u(x,t)+b(x)(1-u(x,t))^{-p}, $$
where $\Delta_{\omega}$ is called the discrete weighted Laplacian operator. Under some appropriate hypotheses, we prove the existence and uniqueness of the local solution via Banach fixed point theorem. We also show that the solution of the problem quenches in a finite time and that the time-derivative blows up at the quenching time. Moreover, we estimate the quenching time and the quenching rate.
Finally, we verify our results through some numerical examples.
Keywords and Phrases
Quenching, $\omega$ - diffusion equation, quenching rate, graph.
A.M.S. subject classification
35K57, 35A02, 05C62.
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