$M$ is a closed Riemannian manifold and $\lambda_1>0$ is the first nontrivial eigenvalue of $\Delta$. Can we find a eigenfunction $f$ of $\lambda_1$ such that $\mathop {\sup }\limits_M f - \mathop {\inf }\limits_M f = 2$ and $\mathop {\inf }\limits_M f \geq-1$?
2026-05-05 23:22:50.1778023370
The choice of the eigenfunction of Laplacian
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Yes. Let $f$ be a eigenfunction of $\Delta$ with respect to $\lambda_1$. By multiplying a constant, we can assume that $\sup f - \inf f = 2$ (It can be found as $f$ is nonconstant). If $\inf f \geq -1$, we are done. If $\inf f < -1$, then $\sup f < 1$, and $h=-f$ satisfies $\inf h \geq -1$.