Lieb–Thirring inequalities for the shifted Coulomb Hamiltonian

Abstract

In this paper we prove sharp Lieb–Thirring (LT) inequalities for the family of shifted Coulomb Hamiltonians. More precisely, we prove the classical LT inequalities with the semi-classical constant for this family of operators in any dimension $d\ge 3$ and any $\gamma \ge 1$. We also prove that the semi-classical constant is never optimal for the Cwikel–Lieb–Rozenblum (CLR) inequalities for this family of operators in any dimension. In this case, we characterize the optimal constant as the minimum of a finite set and provide an asymptotic expansion as the dimension grows. Using the same method to prove the CLR inequalities for Coulomb, we obtain more information about the conjectured optimal constant in the CLR inequality for arbitrary potentials.