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First-order expansions for eigenvalues and eigenfunctions in periodic homogenization

Published online by Cambridge University Press:  20 March 2019

Jinping Zhuge*
Affiliation:
Department of Mathematics, University of Kentucky, Lexington, KY40506, USA ([email protected])

Abstract

For a family of elliptic operators with periodically oscillating coefficients, $-{\rm div}(A(\cdot /\varepsilon )\nabla )$ with tiny ε > 0, we comprehensively study the first-order expansions of eigenvalues and eigenfunctions (eigenspaces) for both the Dirichlet and Neumann problems in bounded, smooth and strictly convex domains (or more general domains of finite type). A new first-order correction term is introduced to derive the expansion of eigenfunctions in L2 or $H^1_{\rm loc}$. Our results rely on the recent progress on the homogenization of boundary layer problems.

Type
Research Article
Copyright
Copyright © Royal Society of Edinburgh 2019

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References

1Allaire, G. and Conca, C.. Bloch wave homogenization and spectral asymptotic analysis. J. Math. Pures Appl. (9) 77 (1998), 153208. MR 1614641.Google Scholar
2Armstrong, S., Kuusi, T., Mourrat, J.-C. and Prange, C.. Quantitative analysis of boundary layers in periodic homogenization. Arch. Ration. Mech. Anal. 226 (2017), 695741. MR 3687879.CrossRefGoogle Scholar
3Gérard-Varet, D. and Masmoudi, N.. Homogenization in polygonal domains. J. Eur. Math. Soc. (JEMS) 13 (2011), 14771503. MR 2825170.CrossRefGoogle Scholar
4Gérard-Varet, D. and Masmoudi, N.. Homogenization and boundary layers. Acta Math. 209 (2012), 133178. MR 2979511.CrossRefGoogle Scholar
5Kenig, C., Lin, F. and Shen, Z.. Estimates of eigenvalues and eigenfunctions in periodic homogenization. J. Eur. Math. Soc. (JEMS) 15 (2013), 19011925. MR 3082248.CrossRefGoogle Scholar
6Kesavan, S.. Homogenization of elliptic eigenvalue problems. I. Appl. Math. Optim. 5 (1979), 153167. MR 533617.CrossRefGoogle Scholar
7Kesavan, S.. Homogenization of elliptic eigenvalue problems. II Appl. Math. Optim. 5 (1979), 197216. MR 546068.CrossRefGoogle Scholar
8Moskow, S. and Vogelius, M.. First-order corrections to the homogenised eigenvalues of a periodic composite medium. A convergence proof. Proc. Roy. Soc. Edinburgh Sect. A 127 (1997), 12631299. MR 1489436.CrossRefGoogle Scholar
9Osborn, J. E.. Spectral approximation for compact operators. Math. Comput. 29 (1975), 712725. MR 0383117.CrossRefGoogle Scholar
10Prange, C.. First-order expansion for the Dirichlet eigenvalues of an elliptic system with oscillating coefficients. Asymptot. Anal. 83 (2013), 207235. MR 3112850.Google Scholar
11Santosa, F. and Vogelius, M.. First-order corrections to the homogenized eigenvalues of a periodic composite medium. SIAM J. Appl. Math. 53 (1993), 16361668. MR 1247172.CrossRefGoogle Scholar
12Shen, Z.. Periodic homogenization of elliptic systems. Operator theory: advances and applications, vol. 269 (Cham: Birkhäuser/Springer, 2018).Google Scholar
13Shen, Z. and Zhuge, J.. Boundary layers in periodic homogenization of Neumann problems. Comm. Pure Appl. Math. 71 (2018), 21632219. MR 3862089.CrossRefGoogle Scholar
14Shen, Z. and Zhuge, J.. Regularity of homogenized boundary data in periodic homogenization of elliptic systems. J. Eur. Math. Soc. (JEMS) (To appear).Google Scholar
15Zhuge, J.. Homogenization and boundary layers in domains of finite type. Comm. Partial Differ. Equ. 43 (2018), 549584. MR 3902170.CrossRefGoogle Scholar