Gauge Symmetries of the N=2 String
Abstract
We study the underlying gauge symmetry algebra of the N=2 string, which is broken down to a subalgebra in any spacetime background. For given toroidal backgrounds, the unbroken gauge symmetries (corresponding to holomorphic and antiholomorphic worldsheet currents) generate area-preserving diffeomorphism algebras of null 2-tori. A minimal Lie algebraic closure containing all the gauge symmetries that arise in this way, is the background--independent volume--preserving diffeomorphism algebra of the target Narain torus T4,4. The underlying symmetries act on the ground ring of functions on T4,4 as derivations, much as in the case of the d=2 string. A background--independent spacetime action valid for noncompact metrics is presented, whose symmetries are volume--preserving diffeomorphisms. Possible extensions to N=2 and N=1 heterotic strings are briefly discussed.
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