Optimal Hardy-Sobolev Inequalities on Compact Riemannain Manifolds
classification
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hardy-sobolevinequalityabovecompacttakebeenbestconstant
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Given a compact Riemannian Manifold (M,g) of dimension n > 2, a point x_0 in M and s in (0,2). We let 2*(s) = 2(n-s)/(n-2) be the critical Hardy-Sobolev exponent. The Hardy-Sobolev embedding yields the existence of A,B > 0 such that (\int_M|u|^{2*(s)}dv_g)^{2/2*(s)} \leq A\int_M |\nabla u|_g^2 dv_g +B\int_M u^2 dv_g for all u in H_1^2(M). It has been proved that A\leq K(n,s) and that one can take any value A > K(n,s) in in the above inequality where $K(n,s)$ is the best possible constant in the Euclidean Hardy-Sobolev inequality. In the present manuscript, we prove that one can also take A = K(n,s) in the above inequality.
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