Jens Persson scite author profile

Jens Persson

5Publications

93Citation Statements Received

169Citation Statements Given

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167

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Mid Sweden University

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Homogenization of Parabolic Equations with an Arbitrary Number of Scales in Both Space and Time

Flodén

Holmbom

Lindberg

et al. 2014

Journal of Applied Mathematics

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The main contribution of this paper is the homogenization of the linear parabolic equation∂tuε(x,t)-∇·(a(x/εq1,...,x/εqn,t/εr1,...,t/εrm)∇uε(x,t))=f(x,t)exhibiting an arbitrary finite number of both spatial and temporal scales. We briefly recall some fundamentals of multiscale convergence and provide a characterization of multiscale limits for gradients, in an evolution setting adapted to a quite general class of well-separated scales, which we name by jointly well-separated scales (see appendix for the proof). We proceed with a weaker version of this concept called very weak multiscale convergence. We prove a compactness result with respect to this latter type for jointly well-separated scales. This is a key result for performing the homogenization of parabolic problems combining rapid spatial and temporal oscillations such as the problem above. Applying this compactness result together with a characterization of multiscale limits of sequences of gradients we carry out the homogenization procedure, where we together with the homogenized problem obtainnlocal problems, that is, one for each spatial microscale. To illustrate the use of the obtained result, we apply it to a case with three spatial and three temporal scales withq1=1,q2=2, and0<r1<r2.

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Very weak multiscale convergence

Flodén

Holmbom

Olsson

et al. 2010

Applied Mathematics Letters

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Homogenization of monotone parabolic problems with several temporal scales

Persson

2012

Appl Math

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In this paper we homogenise monotone parabolic problems with two spatial scales and finitely many temporal scales. Under a certain well-separatedness assumption on the spatial and temporal scales as explained in the paper, we show that there is an H-limit defined by at most four distinct sets of local problems corresponding to slow temporal oscillations, slow resonant spatial and temporal oscillations (the "slow" self-similar case), rapid temporal oscillations, and rapid resonant spatial and temporal oscillations (the "rapid" self-similar case), respectively.

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Detection of scales of heterogeneity ‎and parabolic homogenization applying ‎very weak multiscale convergence

Flodén¹,

Holmbom²,

Olsson³

et al. 2011

Ann. Funct. Anal.

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A Note on Parabolic Homogenization with a Mismatch between the Spatial Scales

Flodén

Holmbom

Lindberg

et al. 2013

Abstract and Applied Analysis

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We consider the homogenization of the linear parabolic problem ( / 2 ) ( , ) − ∇ ⋅ ( ( / 1 , / 2 1 )∇ ( , )) = ( , ) which exhibits a mismatch between the spatial scales in the sense that the coefficient ( / 1 , / 2 1 ) of the elliptic part has one frequency of fast spatial oscillations, whereas the coefficient ( / 2 ) of the time derivative contains a faster spatial scale. It is shown that the faster spatial microscale does not give rise to any corrector term and that there is only one local problem needed to characterize the homogenized problem. Hence, the problem is not of a reiterated type even though two rapid scales of spatial oscillation appear.

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Jens Persson

Homogenization of Parabolic Equations with an Arbitrary Number of Scales in Both Space and Time

Very weak multiscale convergence

Homogenization of monotone parabolic problems with several temporal scales

Detection of scales of heterogeneity ‎and parabolic homogenization applying ‎very weak multiscale convergence

A Note on Parabolic Homogenization with a Mismatch between the Spatial Scales

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