具有锢囚锋的“牵引”锋的弱推进性质。
Weakly pushed nature of "pulled" fronts with a cutoff.
作者信息
Panja Debabrata, van Saarloos Wim
机构信息
Instituut Lorentz, Universiteit Leiden, Postbus 9506, 2300 RA Leiden, The Netherlands.
出版信息
Phys Rev E Stat Nonlin Soft Matter Phys. 2002 May;65(5 Pt 2):057202. doi: 10.1103/PhysRevE.65.057202. Epub 2002 May 2.
The concept of pulled fronts with a cutoff epsilon has been introduced to model the effects of the discrete nature of the constituent particles on the asymptotic front speed in models with continuum variables (pulled fronts are the fronts that propagate into an unstable state, and have an asymptotic front speed equal to the linear spreading speed v* of small linear perturbations around the unstable state). In this paper, we demonstrate that the introduction of a cutoff actually makes such pulled fronts weakly pushed. For the nonlinear diffusion equation with a cutoff, we show that the longest relaxation times tau(m) that govern the convergence to the asymptotic front speed and profile, are given by tau(-1)(m) approximately equal to [(m+1)(2)-1]pi(2)/ln(2)epsilon, for m=1,2,....
引入了具有截断参数ε的拖曳前沿概念,以模拟连续变量模型中组成粒子的离散性质对渐近前沿速度的影响(拖曳前沿是传播到不稳定状态的前沿,其渐近前沿速度等于围绕不稳定状态的小线性扰动的线性传播速度v*)。在本文中,我们证明了截断的引入实际上使此类拖曳前沿变为弱推进前沿。对于具有截断的非线性扩散方程,我们表明,控制收敛到渐近前沿速度和轮廓的最长弛豫时间τ(m),对于m = 1,2,...,由τ^(-1)(m) ≈ [(m + 1)^2 - 1]π^2 / ln(2)ε给出。
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