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Long time behavior of random and nonautonomous Fisher-KPP equations. Part II. Transition fronts

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 نشر من قبل Rachidi Bolaji Salako
 تاريخ النشر 2018
  مجال البحث
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In the current series of two papers, we study the long time behavior of the following random Fisher-KPP equation $$ u_t =u_{xx}+a(theta_tomega)u(1-u),quad xinR, eqno(1) $$ where $omegainOmega$, $(Omega, mathcal{F},mathbb{P})$ is a given probability space, $theta_t$ is an ergodic metric dynamical system on $Omega$, and $a(omega)>0$ for every $omegainOmega$. We also study the long time behavior of the following nonautonomous Fisher-KPP equation, $$ u_t=u_{xx}+a_0(t)u(1-u),quad xinR, eqno(2) $$ where $a_0(t)$ is a positive locally Holder continuous function. In the first part of the series, we studied the stability of positive equilibria and the spreading speeds of (1) and (2). In this second part of the series, we investigate the existence and stability of transition fronts of (1) and (2). We first study the transition fronts of (1). Under some proper assumption on $a(omega)$, we show the existence of random transition fronts of (1) with least mean speed greater than or equal to some constant $underline{c}^*$ and the nonexistence of ranndom transition fronts of (1) with least mean speed less than $underline{c}^*$. We prove the stability of random transition fronts of (1) with least mean speed greater than $underline{c}^*$. Note that it is proved in the first part that $underline{c}^*$ is the infimum of the spreading speeds of (1). We next study the existence and stability of transition fronts of (2). It is not assumed that $a(omega)$ and $a_0(t)$ are bounded above and below by some positive constants. Many existing results in literature on transition fronts of Fisher-KPP equations have been extended to the general cases considered in the current paper. The current paper also obtains several new results.



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In the current series of two papers, we study the long time behavior of the following random Fisher-KPP equation $$ u_t =u_{xx}+a(theta_tomega)u(1-u),quad xinmathbb{R} $$ where $omegainOmega$, $(Omega, mathcal{F},mathbb{P})$ is a given probability sp ace, $theta_t$ is an ergodic metric dynamical system on $Omega$, and $a(omega)>0$ for every $omegainOmega$. We also study the long time behavior of the following nonautonomous Fisher-KPP equation, $$ u_t=u_{xx}+a_0(t)u(1-u),quad xinmathbb{R}$$ where $a_0(t)$ is a positive locally Holder continuous function. In this first part of the series, we investigate the stability of positive equilibria and the spreading speeds. Under some proper assumption on $a(omega)$, we show that the constant solution $u=1$ of (1) is asymptotically stable with respect to strictly positive perturbations and show that (1) has a deterministic spreading speed interval $[2sqrt{underline a}, 2sqrt{bar a}]$, where $underline{a}$ and $bar a$ are the least and the greatest means of $a(cdot)$, respectively, and hence the spreading speed interval is linearly determinant. It is shown that the solution of (1) with the initial function which is bounded away from $0$ for $xll -1$ and is $0$ for $xgg 1$ propagates at the speed $2sqrt {hat a}$, where $hat a$ is the average of $a(cdot)$. Under some assumption on $a_0(cdot)$, we also show that the constant solution $u=1$ of (2) is asymptotically stably and (2) admits a bounded spreading speed interval. It is not assumed that $a(omega)$ and $a_0(t)$ are bounded above and below by some positive constants. The results obtained in this part are new and extend the existing results in literature on spreading speeds of Fisher-KPP equations. In the second part of the series, we will study the existence and stability of transition fronts of (1) and (2).
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