Physical States in Topological Phase of N=2 Supersymmetric WZNW Models
S. E. Parkhomenko
TL;DR
This paper investigates the physical states in the topological phase of N=2 supersymmetric WZNW models, constructing representatives and analyzing the ring structure to deepen understanding of their algebraic properties.
Contribution
It introduces a method to compute physical states and their ring structure in N=2 supersymmetric WZNW models associated with Manin triples, providing new algebraic insights.
Findings
Physical states explicitly computed in the topological phase.
Representatives of N=2 WZNW models constructed.
Ring structure of physical states analyzed.
Abstract
N=2 supersymmetric WZNW models associated with finite-dimensional Manin triples is considered. Physical states in topological phase of these models are computed and them N=2 WZNW representatives are constracted. Ring structure of the physical states is computed.
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