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A REACTION–DIFFUSION–ADVECTION EQUATION WITH COMBUSTION NONLINEARITY ON THE HALF-LINE

Published online by Cambridge University Press:  02 July 2018

FANG LI
Affiliation:
Mathematics and Science College, Shanghai Normal University, Shanghai 200234, China email [email protected]
QI LI*
Affiliation:
Mathematics and Science College, Shanghai Normal University, Shanghai 200234, China email [email protected], [email protected]
YUFEI LIU
Affiliation:
Mathematics and Science College, Shanghai Normal University, Shanghai 200234, China email [email protected]
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Abstract

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We study the dynamics of a reaction–diffusion–advection equation $u_{t}=u_{xx}-au_{x}+f(u)$ on the right half-line with Robin boundary condition $u_{x}=au$ at $x=0$, where $f(u)$ is a combustion nonlinearity. We show that, when $0<a<c$ (where $c$ is the travelling wave speed of $u_{t}=u_{xx}+f(u)$), $u$ converges in the $L_{loc}^{\infty }([0,\infty ))$ topology either to $0$ or to a positive steady state; when $a\geq c$, a solution $u$ starting from a small initial datum tends to $0$ in the $L^{\infty }([0,\infty ))$ topology, but this is not true for a solution starting from a large initial datum; when $a>c$, such a solution converges to $0$ in $L_{loc}^{\infty }([0,\infty ))$ but not in $L^{\infty }([0,\infty ))$ topology.

Type
Research Article
Copyright
© 2018 Australian Mathematical Publishing Association Inc. 

Footnotes

This research was partly supported by NSFC (Nos. 11701374 and 11671262).

References

Angenent, S. B., ‘The zero set of a solution of a parabolic equation’, J. reine angew. Math. 390 (1988), 7996.Google Scholar
Chen, X., Lou, B., Zhou, M. and Giletti, T., ‘Long time behavior of solutions of a reaction–diffusion equation on unbounded intervals with Robin boundary conditions’, Ann. Inst. H. Poincaré Anal. Non Linéaire 33 (2016), 6792.Google Scholar
Cui, R., Lam, K.-Y. and Lou, Y., ‘Dynamics and asymptotic profiles of steady states of an epidemic model in advective environments’, J. Differential Equations 263 (2017), 23432373.Google Scholar
Cui, R. and Lou, Y., ‘A spatial SIS model in advective heterogeneous environments’, J. Differential Equations 261 (2016), 33053343.Google Scholar
Du, Y. and Lou, B., ‘Spreading and vanishing in nonlinear diffusion problems with free boundaries’, J. Eur. Math. Soc. 17 (2015), 26732724.Google Scholar
Du, Y., Lou, B. and Zhou, M., ‘Nonlinear diffusion problems with free boundaries: convergence, transition speed, and zero number argument’, SIAM J. Math. Anal. 47 (2015), 35553584.Google Scholar
Du, Y. and Matano, H., ‘Convergence and sharp thresholds for propagation in nonlinear diffusion problems’, J. Eur. Math. Soc. 12 (2010), 279312.Google Scholar
Fašangová, E. and Feireisl, E., ‘The long-time behavior of solutions of parabolic problems on unbounded intervals: the influence of boundary conditions’, Proc. Roy. Soc. Edinburgh Sect. A 129 (1999), 319329.Google Scholar
Gu, H., Lin, Z. and Lou, B., ‘Different asymptotic spreading speeds induced by advection in a diffusion problem with free boundaries’, Proc. Amer. Math. Soc. 143 (2015), 11091117.Google Scholar
Gu, H., Lou, B. and Zhou, M., ‘Long time behavior of solutions of Fisher–KPP equation with advection and free boundaries’, J. Funct. Anal. 269 (2015), 17141768.Google Scholar
Lou, Y. and Zhou, P., ‘Evolution of dispersal in advective homogeneous environment: the effect of boundary conditions’, J. Differential Equations 259 (2015), 141171.Google Scholar
Matano, H., ‘Convergence of solutions of one-dimensional semilinear parabolic equations’, J. Math. Kyoto Univ. 18 (1978), 221227.Google Scholar
Zlatoš, A., ‘Sharp transition between extinction and propagation of reaction’, J. Amer. Math. Soc. 19 (2006), 251263.Google Scholar