Gradient stability for the Sobolev inequality: the case $p\geq 2$

Abstract: We prove a sharp quantitative version of the p-Sobolev inequality for any 1

“…In the last two decades there has been an abundance of stability results for various functional inequalities. Examples include, for instance, isoperimetric inequalities [31,25,17,21], L p -Sobolev inequalities [11,27,37,28], fractional Sobolev inequalities [13], Gagliardo-Nirenberg inequalities [6], Brunn-Minkowski, concentration and rearrangement inequalities [24,23,26,15,30], eigenvalue inequalities [36,10,7,33,1], solutions to elliptic equations with critical exponents [12,22,18], Young's inequality [16], Hausdorff-Young inequality [14], etc. Many of these works use strategies inspired by the paper of Bianchi-Egnell and in essentially all works (exceptions being [28,23] and one version of a refined Hölder inequality in [10]) the remainder term is quadratic in the distance to the optimizers.…”

Degenerate stability of some Sobolev inequalities

“…In the last two decades there has been an abundance of stability results for various functional inequalities. Examples include, for instance, isoperimetric inequalities [31,25,17,21], L p -Sobolev inequalities [11,27,37,28], fractional Sobolev inequalities [13], Gagliardo-Nirenberg inequalities [6], Brunn-Minkowski, concentration and rearrangement inequalities [24,23,26,15,30], eigenvalue inequalities [36,10,7,33,1], solutions to elliptic equations with critical exponents [12,22,18], Young's inequality [16], Hausdorff-Young inequality [14], etc. Many of these works use strategies inspired by the paper of Bianchi-Egnell and in essentially all works (exceptions being [28,23] and one version of a refined Hölder inequality in [10]) the remainder term is quadratic in the distance to the optimizers.…”

Degenerate stability of some Sobolev inequalities

“…For example, Bianchi and Egnell [4] established a stability version for the L 2 −Sobolev inequality in whole space R n which answers affirmatively a question of Brezis and Lieb in [7]. The quantitative form of the L p −Sobolev inequality with p = 2 was proved by Cianchi, Fusco, Maggi and Pratelli [16] and recently by Figalli and Neumayer [32]. The stability version of the Sobolev inequality on functions of bounded variation were studied by Cianchi [14], Fusco, Maggi and Pratelli [34], and by Figalli, Maggi and Pratelli [29].…”

The sharp Gagliardo–Nirenberg–Sobolev inequality in quantitative form

“…The argument combines symmetrization arguments in the spirit of [FMP08] with a mass transportation argument in one dimension. More recently, in [FN19], Figalli and the author strengthened this result in the case p ≥ 2 by showing that the deficit of a function controls a power of A(u). The main idea there was to view W 1,p (R n ) as a weighted Hilbert space and to establish a spectral gap for the linearized operator in the second variation as in [BE91].…”

A note on strong-form stability for the Sobolev inequality