English

Semi-doubled Sigma Models for Five-branes

High Energy Physics - Theory 2016-02-03 v3

Abstract

We study two-dimensional N=(2,2){\cal N}=(2,2) gauge theory and its dualized system in terms of complex (linear) superfields and their alternatives. Although this technique itself is not new, we can obtain a new model, the so-called "semi-doubled" GLSM. Similar to doubled sigma model, this involves both the original and dual degrees of freedom simultaneously, whilst the latter only contribute to the system via topological interactions. Applying this to the N=(4,4){\cal N}=(4,4) GLSM for H-monopoles, i.e., smeared NS5-branes, we obtain its T-dualized systems in quite an easy way. As a bonus, we also obtain the semi-doubled GLSM for an exotic 5235^3_2-brane whose background is locally nongeometric. In the low energy limit, we construct the semi-doubled NLSM which also generates the conventional string worldsheet sigma models. In the case of the NLSM for 5235^3_2-brane, however, we find that the Dirac monopole equation does not make sense any more because the physical information is absorbed into the divergent part via the smearing procedure. This is nothing but the signal which indicates that the nongeometric feature emerges in the considering model.

Keywords

Cite

@article{arxiv.1512.05548,
  title  = {Semi-doubled Sigma Models for Five-branes},
  author = {Tetsuji Kimura},
  journal= {arXiv preprint arXiv:1512.05548},
  year   = {2016}
}

Comments

34 pages, version published in JHEP

R2 v1 2026-06-22T12:12:19.617Z