Bosonization and the Current Algebra of Spinning Strings

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Date
1996-12-23
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Publisher
Elsevier
Abstract

We write down a general geometric action principle for spinning strings in d-dimensional Minkowski space, which is formulated without the use of Grassmann coordinates. Instead, it is constructed in terms of the pull-back of a left invariant Maurer-Cartan form on the d-dimensional Poincaré group to the world-sheet. The system contains some interesting special cases. Among them are the Nambu string (as well as, null and tachyonic strings) where the spin vanishes, and also the case of a string with a spin current—but no momentum current. We find the general form for the Virasoro generators, and show that they are first class constraints in the Hamiltonian formulation of the theory. The current algebra associated with the momentum and angular momentum densities are shown, in general, to contain rather complicated anomaly terms which obstruct quantization. As expected, the anomalies vanish when one specializes to the case of the Nambu string, and there one simply recovers the algebra associated with the Poincaré loop group. We speculate that there exist other cases where the anomalies vanish, and that these cases give the bosonization of the known pseudoclassical formulations of spinning strings.

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Keywords
Bosonization, Current algebra, Poincare loop group, Anomalies
Citation
Stern, A., Vitale, P. (1996): Bosonization and the Current Algebra of Spinning Strings. Nuclear Physics B, 482(1-2). DOI: https://doi.org/10.1016/S0550-3213(96)00569-X