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Hauptverfasser: Liu, Xuan, Qian, Zhongmin
Format: Preprint
Veröffentlicht: 2017
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Online-Zugang:https://arxiv.org/abs/1706.01590
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author Liu, Xuan
Qian, Zhongmin
author_facet Liu, Xuan
Qian, Zhongmin
contents By using the analytic tools of Dirichlet forms, we initiate a study of some non-linear parabolic equations on Sierpinski gasket, motivated by modellings of fluid flows along a fractal (which can be considered as a simplified rough porous medium). Unlike the regular spaces case, such equation involving a convection term must take a quite different form and the convection term must be singular to the "linear part" which is determined the heat semigroup. In order to study these parabolic type equations, a new kind of Sobolev inequalities for the Dirichlet form on the gasket will be established as an effective tool for our study. These Sobolev inequalities, which are interesting by their own and in contrast to the case of Euclidean spaces, involve two $L^p$ norms with respect two mutually singular measures. By examining properties of a singular convolution of the associated heat semigroup, we derive the space-time regularity of solutions to the parabolic equations under a few technical conditions. The Burgers equations on the Sierpinski gasket are also studied, for which a maximum principle for solutions is derived using techniques from backward stochastic differential equations, and the existence and uniqueness as well as the regularity of solutions are obtained.
format Preprint
id arxiv_https___arxiv_org_abs_1706_01590
institution arXiv
publishDate 2017
record_format arxiv
spellingShingle Parabolic type equations associated with the Dirichlet form on the Sierpinski gasket
Liu, Xuan
Qian, Zhongmin
Classical Analysis and ODEs
Functional Analysis
28A80, 60J45
By using the analytic tools of Dirichlet forms, we initiate a study of some non-linear parabolic equations on Sierpinski gasket, motivated by modellings of fluid flows along a fractal (which can be considered as a simplified rough porous medium). Unlike the regular spaces case, such equation involving a convection term must take a quite different form and the convection term must be singular to the "linear part" which is determined the heat semigroup. In order to study these parabolic type equations, a new kind of Sobolev inequalities for the Dirichlet form on the gasket will be established as an effective tool for our study. These Sobolev inequalities, which are interesting by their own and in contrast to the case of Euclidean spaces, involve two $L^p$ norms with respect two mutually singular measures. By examining properties of a singular convolution of the associated heat semigroup, we derive the space-time regularity of solutions to the parabolic equations under a few technical conditions. The Burgers equations on the Sierpinski gasket are also studied, for which a maximum principle for solutions is derived using techniques from backward stochastic differential equations, and the existence and uniqueness as well as the regularity of solutions are obtained.
title Parabolic type equations associated with the Dirichlet form on the Sierpinski gasket
topic Classical Analysis and ODEs
Functional Analysis
28A80, 60J45
url https://arxiv.org/abs/1706.01590