The signature of the Ricci curvature of left-invariant Riemannian metrics on nilpotent Lie groups (1507.02239v1)

Abstract: Let $(G,h)$ be a nilpotent Lie group endowed with a left invariant Riemannian metric, $\mathfrak{g}$ its Euclidean Lie algebra and $Z(\mathfrak{g})$ the center of $\mathfrak{g}$. By using an orthonormal basis adapted to the splitting $\mathfrak{g}=(Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}])\oplus O^+\oplus (Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}]^\perp)\oplus O^-$, where $O^+$ (resp. $O^-$) is the orthogonal of $Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}]$ in $[\mathfrak{g},\mathfrak{g}]$ (resp. is the orthogonal of $Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}]^\perp$ in $[\mathfrak{g},\mathfrak{g}]^\perp$), we show that the signature of the Ricci operator of $(G,h)$ is determined by the dimensions of the vector spaces $Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}],$ $Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}]^\perp$ and the signature of a symmetric matrix of order $\dim[\mathfrak{g},\mathfrak{g}]-\dim(Z(\mathfrak{g})\cap[\mathfrak{g},\mathfrak{g}])$. This permits to associate to $G$ a subset $\mathbf{Sign}(\mathfrak{g})$ of $\mathbf{N}^3$ depending only on the Lie algebra structure, easy to compute and such that, for any left invariant Riemannian metric on $G$, the signature of its Ricci operator belongs to $\mathbf{Sign}(\mathfrak{g})$. We show also that for any nilpotent Lie group of dimension less or equal to 6, $\mathbf{Sign}(\mathfrak{g})$ is actually the set of signatures of the Ricci operators of all left invariant Riemannian metrics on $G$. We give also some general results which support the conjecture that the last result is true in any dimension.