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Asymptotic behavior of equilibrium states of reaction–diffusion systems with mass conservation

Jann-Long Chern Central University

Analysis of PDEs mathscidoc:1803.03005

Journal of Differential Equations, (264), 550–574, 2018
We deal with a stationary problem of a reaction–diffusion system with a conservation law under the Neu-mann boundary condition. It is shown that the stationary problem turns to be the Euler–Lagrange equation of an energy functional with a mass constraint. When the domain is the finite interval (0, 1), we investigate the asymptotic profile of a strictly monotone minimizer of the energy as d, the ratio of the diffusion coef-ficient of the system, tends to zero. In view of a logarithmic function in the leading term of the potential, we get to a scaling parameter κsatisfying the relation ε:=√d=√logκ/κ2. The main result shows that a sequence of minimizers converges to a Dirac mass multiplied by the total mass and that by a scaling with κthe asymptotic profile exhibits a parabola in the nonvanishing region. We also prove the existence of an unstable monotone solution when the mass is small.
Reaction–diffusion systems;mass conservation;equilibrium states.
[ Download ] [ 2018-03-05 21:29:05 uploaded by chern ] [ 1165 downloads ] [ 0 comments ] 
@inproceedings{jann-long2018asymptotic,
  title={Asymptotic behavior of equilibrium states of reaction–diffusion systems with mass conservation},
  author={Jann-Long Chern},
  url={http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20180305212905697613967},
  booktitle={Journal of Differential Equations},
  number={264},
  pages={550–574},
  year={2018},
}
Jann-Long Chern. Asymptotic behavior of equilibrium states of reaction–diffusion systems with mass conservation. 2018. In Journal of Differential Equations. pp.550–574. http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20180305212905697613967.
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