Aubin–Lions lemma

In mathematics, the Aubin–Lions lemma (or theorem) is the result in the theory of Sobolev spaces of Banach space-valued functions, which provides a compactness criterion that is useful in the study of nonlinear evolutionary partial differential equations. Typically, to prove the existence of solutions one first constructs approximate solutions (for example, by a Galerkin method or by mollification of the equation), then uses the compactness lemma to show that there is a convergent subsequence of approximate solutions whose limit is a solution.

The result is named after the French mathematicians Jean-Pierre Aubin and Jacques-Louis Lions. In the original proof by Aubin,^[1] the spaces X₀ and X₁ in the statement of the lemma were assumed to be reflexive, but this assumption was removed by Simon,^[2] so the result is also referred to as the Aubin–Lions–Simon lemma.^[3]

Statement of the lemma

Let X₀, X and X₁ be three Banach spaces with X₀ ⊆ X ⊆ X₁. Suppose that X₀ is compactly embedded in X and that X is continuously embedded in X₁. For ${\displaystyle 1\leq p,q\leq \infty }$, let

${\displaystyle W=\{u\in L^{p}([0,T];X_{0})\mid {\dot {u}}\in L^{q}([0,T];X_{1})\}.}$

(i) If ${\displaystyle p<\infty }$ then the embedding of W into ${\displaystyle L^{p}([0,T];X)}$ is compact.

(ii) If ${\displaystyle p=\infty }$ and ${\displaystyle q>1}$ then the embedding of W into ${\displaystyle C([0,T];X)}$ is compact.

See also

• Lions–Magenes lemma

Notes

1. Aubin (1963)
2. Simon (1986)
3. Boyer & Fabrie (2013)

References

• Aubin, Jean-Pierre (1963). "Un théorème de compacité. (French)". C. R. Acad. Sci. Paris. Vol. 256. pp. 5042–5044. MR 0152860.
• Barrett, John W.; Süli, Endre (2012). "Reflections on Dubinskii's nonlinear compact embedding theorem". Publications de l'Institut Mathématique (Belgrade). Nouvelle Série. 91 (105): 95–110. arXiv:1101.1990. doi:10.2298/PIM1205095B. MR 2963813. S2CID 12240189.
• Boyer, Franck; Fabrie, Pierre (2013). Mathematical Tools for the Study of the Incompressible Navier-Stokes Equations and Related Models. Applied Mathematical Sciences 183. New York: Springer. pp. 102–106. ISBN 978-1-4614-5975-0. (Theorem II.5.16)
• Lions, J.L. (1969). Quelque methodes de résolution des problemes aux limites non linéaires. Paris: Dunod-Gauth. Vill. MR 0259693.
• Roubíček, T. (2013). Nonlinear Partial Differential Equations with Applications (2nd ed.). Basel: Birkhäuser. ISBN 978-3-0348-0512-4. (Sect.7.3)
• Showalter, Ralph E. (1997). Monotone operators in Banach space and nonlinear partial differential equations. Mathematical Surveys and Monographs 49. Providence, RI: American Mathematical Society. p. 106. ISBN 0-8218-0500-2. MR 1422252. (Proposition III.1.3)
• Simon, J. (1986). "Compact sets in the space L^p(O,T;B)". Annali di Matematica Pura ed Applicata. 146: 65–96. doi:10.1007/BF01762360. MR 0916688. S2CID 123568207.
• Chen, X.; Jüngel, A.; Liu, J.-G. (2014). "A note on Aubin-Lions-Dubinskii lemmas". Acta Appl. Math. Vol. 133. pp. 33–43. MR 3255076.