English

The first conformal Dirac eigenvalue on 2-dimensional tori

Differential Geometry 2015-06-26 v2 Spectral Theory

Abstract

Let M be a compact manifold with a spin structure \chi and a Riemannian metric g. Let \lambda_g^2 be the smallest eigenvalue of the square of the Dirac operator with respect to g and \chi. The \tau-invariant is defined as \tau(M,\chi):= sup inf \sqrt{\lambda_g^2} Vol(M,g)^{1/n} where the supremum runs over the set of all conformal classes on M, and where the infimum runs over all metrics in the given class. We show that \tau(T^2,\chi)=2\sqrt{\pi} if \chi is ``the'' non-trivial spin structure on T^2. In order to calculate this invariant, we study the infimum as a function on the spin-conformal moduli space and we show that the infimum converges to 2\sqrt{\pi} at one end of the spin-conformal moduli space.

Keywords

Cite

@article{arxiv.math/0412409,
  title  = {The first conformal Dirac eigenvalue on 2-dimensional tori},
  author = {Bernd Ammann and Emmanuel Humbert},
  journal= {arXiv preprint arXiv:math/0412409},
  year   = {2015}
}

Comments

published version (typos removed, bibliography updated)