Author:
Bergamin Riccardo,Cecotti Sergio
Abstract
Abstract
Cumrun Vafa [1] has proposed a microscopic description of the Fractional Quantum Hall Effect (FQHE) in terms of a many-body Hamiltonian H invariant under four supersymmetries. The non-Abelian statistics of the defects (quasi-holes and quasi-particles) is then determined by the monodromy representation of the associated tt* geometry. In this paper we study the monodromy representation of the Vafa 4-susy model. Modulo some plausible assumption, we find that the monodromy representation factors through a Temperley-Lieb/Hecke algebra with q = ± exp (πi/ν) as predicted in [1]. The emerging picture agrees with the other predictions of [1] as well.The bulk of the paper is dedicated to the development of new concepts, ideas, and techniques in tt* geometry which are of independent interest. We present several examples of these geometric structures in various contexts.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference145 articles.
1. C. Vafa, Fractional quantum Hall effect and M-theory, arXiv:1511.03372 [INSPIRE].
2. X.G. Wen, Quantum field theory of many body systems, Oxford University Press, Oxford U.K. (2004).
3. S. Cecotti and C. Vafa, Topological antitopological fusion, Nucl. Phys.B 367 (1991) 359 [INSPIRE].
4. S. Cecotti and C. Vafa, Ising model and N = 2 supersymmetric theories, Commun. Math. Phys.157 (1993) 139 [hep-th/9209085] [INSPIRE].
5. S. Cecotti and C. Vafa, On classification of N = 2 supersymmetric theories, Commun. Math. Phys.158 (1993) 569 [hep-th/9211097] [INSPIRE].
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