Parallel transport along Seifert manifolds and fractional monodromy

N. Martynchuk, K. Efstathiou (2017)
Communications in Mathematical Physics

Abstract

The notion of fractional monodromy was introduced by Nekhoroshev, Sadovskií and Zhilinskií as a generalization of standard (‘integer’) monodromy in the sense of Duistermaat from torus bundles to singular torus fibrations. In the present paper we prove a general result that allows one to compute fractional monodromy in various integrable Hamiltonian systems. In particular, we show that the non-triviality of fractional monodromy in 2 degrees of freedom systems with a Hamiltonian circle action is related only to the fixed points of the circle action. Our approach is based on the study of a specific notion of parallel transport along Seifert manifolds.

@article{2017_ME_Seifert_Fractional_Monodromy,
 abstract = {The notion of fractional monodromy was introduced by Nekhoroshev, Sadovskií and Zhilinskií as a generalization of standard (‘integer’) monodromy in the sense of Duistermaat from torus bundles to singular torus fibrations. In the present paper we prove a general result that allows one to compute fractional monodromy in various integrable Hamiltonian systems. In particular, we show that the non-triviality of fractional monodromy in 2 degrees of freedom systems with a Hamiltonian circle action is related only to the fixed points of the circle action. Our approach is based on the study of a specific notion of parallel transport along Seifert manifolds.},
 archiveprefix = {arxiv},
 author = {Martynchuk, N. and Efstathiou, K.},
 doi = {10.1007/s00220-017-2988-5},
 eprint = {1609.07003},
 journal = {Communications in Mathematical Physics},
 journalurl = {https://link.springer.com/journal/220},
 number = {2},
 pages = {427-449},
 primaryclass = {math-ph},
 title = {Parallel transport along Seifert manifolds and fractional monodromy},
 volume = {356},
 year = {2017}
}