Courant bracket as T-dual invariant extension of Lie bracket

We consider the symmetries of a closed bosonic string, starting with the general coordinate transformations. Their generator takes vector components xi (mu) as its parameter and its Poisson bracket algebra gives rise to the Lie bracket of its parameters. We are going to extend this generator in order for it to be invariant upon self T-duality, i.e. T-duality realized in the same phase space. The new generator is a function of a 2D double symmetry parameter Lambda, that is a direct sum of vector components xi (mu), and 1-form components lambda (mu). The Poisson bracket algebra of a new generator produces the Courant bracket in a same way that the algebra of the general coordinate transformations produces Lie bracket. In that sense, the Courant bracket is T-dual invariant extension of the Lie bracket. When the Kalb-Ramond field is introduced to the model, the generator governing both general coordinate and local gauge symmetries is constructed. It is no longer self T-dual and its algebra gives rise to the B-twisted Courant bracket, while in its self T-dual description, the relevant bracket becomes the theta -twisted Courant bracket. Next, we consider the T-duality and the symmetry parameters that depend on both the initial coordinates x(mu) and T-dual coordinates y(mu). The generator of these transformations is defined as an inner product in a double space and its algebra gives rise to the C-bracket.

Automated summary

This article discusses the symmetries of a closed bosonic string, starting with general coordinate transformations and T-duality. It introduces a new generator and explores the algebraic relationships in different scenarios.