The first eigenvalue of Dirac and Laplace operators on surfaces

Details The first eigenvalue of Dirac and Laplace operators on surfaces The first eigenvalue of Dirac and Laplace operators on surfaces

2006-09-18

arxiv.org/abs/math/0609493v1

Mathematics

Differential Geometry

Scientific paper

Let $(M,g,\sigma)$ be a compact Riemmannian surface equipped with a spin structure $\sigma$. For any metric $\tilde{g}$ on $M$, we denote by $\mu\_1(\tilde{g})$ (resp. $\lambda\_1(\tilde{g})$) the first positive eigenvalue of the Laplacian (resp. the Dirac operator) with respect to the metric $\tilde{g}$. In this paper, we show that $$\inf \frac{\lambda\_1(\tilde{g})^2}{\mu\_1(\tilde{g})} \leqslant {1/2}.$$ where the infimum is taken over the metrics $\tilde{g}$ conformal to $g$. This answer a question asked by Agricola, Ammann and Friedrich

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