proof of Sobolev inequality for Ω=𝐑n


Step 1: u is smooth and p=1

First suppose u is a compactly supported smooth functionMathworldPlanetmath, and let (ek)1kn denote a basis of 𝐑n. For every 1kn,

u(x)=-0uxk(x+sek)𝑑s.

Therefore,

|u(x)|Sk(x):=𝐑|uxk(x1,,xk-1,s,xk+1,,xn)|𝑑s.

Note that Sk does not depend on xk. One also has

|u(x)|n/(n-1)k=1n|Sk(x)|1/(n-1).

The integration of this inequalityMathworldPlanetmath yields,

𝐑n|u(x)|n/(n-1)𝑑x𝐑nk=1n|Sk(x)|1/(n-1)dx.

Since S1 does not depend on xk, we can apply the generalized Hölder inequality with n-1 for the integration with respect to x1 in order to obtain:

𝐑n|u(x)|n/(n-1)𝑑x𝐑n-1S1(x)k=2n(𝐑Sk(x)𝑑x1)1/(n-1)dx1dxn.

The repetition of this process for the variables x2,,xn gives

𝐑n|u(x)|n/(n-1)𝑑xk=1n(𝐑n|uxk|𝑑x)1/(n-1).

By the arithmetic-geometric means inequality, one obtains

𝐑n|u(x)|n/(n-1)𝑑xn-n/(n-1)(k=1n(𝐑n|uxk|𝑑x))n/(n-1).

One finally concludes

uLn/(n-1)n1/2-n/(n-1)uLn/(n-1).

Step 2: general u and p=1

In general if uW1,1(𝐑n). It can be approximated by a sequence of compactly supported smooth functions (um). By step 1, one has

um-uLn/(n-1)n1/2-n/(n-1)um-uL1.

therefore (um) is a Cauchy sequenceMathworldPlanetmath in Ln/(n-1)(𝐑n). Since it converges to u in L1(𝐑n), the limit of (um) is u in Ln/(n-1)(𝐑n) and one has

uLn/(n-1)n1/2-n/(n-1)uLn/(n-1).

Step 3: 1<p<n and u is smooth

Suppose 1<p<n and u is a smooth compactly supported function. Let

r=p(n-1)n-p

and

v=|u|r.

Since u is smooth, vW1,1 (It is however not necessarily smooth), and its weak derivative is

v=ru|u|r-2u.

One has, by the Hölder inequality,

vL1(𝐑N)r|u|rLp/p-1(𝐑N)uLp(𝐑N)=ruLnp/(n-p)(𝐑N)r-1uLp(𝐑N)

Therefore, the Sobolev inequality yields

uLnp/(n-p)(𝐑N)r=vLn/(n-1)(𝐑N)rn1/2-n/(n-1)uLnp/(n-p)(𝐑N)r-1uLp(𝐑N).

This yields

uLnp/(n-p)(𝐑N)n1/2-n/(n-1)p(n-1)n-puLp(𝐑N).

Step 4: 1<p<n and uW1,p

This is done as step 2.

This proof is due to Gagliardo and Nirenberg, who were the first to prove the inequality for p=1. This proof can be also found in [1, 2, 3].

References

  • 1 Haïm Brezis, Analyse fonctionnelle, Théorie et applications, Mathématiques appliquées pour la maîtrise, Masson, Paris, 1983. http://www.ams.org/mathscinet-getitem?mr=0697382[MR85a:46001]
  • 2 Jürgen Jost, Partial Differential EquationsMathworldPlanetmath, Graduate Texts in Mathematics, Springer, 2002, http://www.ams.org/mathscinet-getitem?mr=1919991[MR:2003f:35002].
  • 3 Michel Willem, Analyse fonctinnelle élémentaire, Cassini, Paris, 2003.
Title proof of Sobolev inequality for Ω=𝐑n
Canonical name ProofOfSobolevInequalityForOmegamathbfRn
Date of creation 2013-03-22 15:05:22
Last modified on 2013-03-22 15:05:22
Owner vanschaf (8061)
Last modified by vanschaf (8061)
Numerical id 14
Author vanschaf (8061)
Entry type Proof
Classification msc 46E35