Contents Online
Journal of Symplectic Geometry
Volume 18 (2020)
Number 6
The geometric quantizations and the measured Gromov–Hausdorff convergences
Pages: 1575 – 1627
DOI: https://dx.doi.org/10.4310/JSG.2020.v18.n6.a3
Author
Abstract
On a compact symplectic manifold ($X, \omega)$ with a prequantum line bundle $(L, \nabla , h)$, we consider the one-parameter family of $\omega$-compatible complex structures which converges to the real polarization coming from the Lagrangian torus fibration. There are several researches which show that the holomorphic sections of the line bundle localize at Bohr–Sommerfeld fibers. In this article we consider the one-parameter family of the Riemannian metrics on the frame bundle of $L$ determined by the complex structures and $\nabla , h$, and we can see that their diameters diverge. If we fix a base point in some fibers of the Lagrangian fibration we can show that they measured Gromov-Hausdorff converge to some pointed metric measure spaces with the isometric $S^1$-actions, which may depend on the choice of the base point. We observe that the properties of the $S^1$-actions on the limit spaces actually depend on whether the base point is in the Bohr–Sommerfeld fibers or not.
The author was partially supported by Grant-in-Aid for Young Scientists (B) Grant Number 16K17598 and by Grant-in-Aid for Scientific Research (C) Grant Number 19K03474.
Received 3 October 2019
Accepted 27 April 2020
Published 2 February 2021