A Conformal Field Theory of Extrinsic Geometry of 2-d Surfaces

Abstract

In the description of the extrinsic geometry of the string world sheet regarded as a conformal immersion of a 2-d surface in R3, it was previously shown that, restricting to surfaces with hg\ =\ 1, where h is the mean scalar curvature and g is the determinant of the induced metric on the surface, leads to Virasaro symmetry. An explicit form of the effective action on such surfaces is constructed in this article which is the extrinsic curvature analog of the WZNW action. This action turns out to be the gauge invariant combination of the actions encountered in 2-d intrinsic gravity theory in light-cone gauge and the geometric action appearing in the quantization of the Virasaro group. This action, besides exhibiting Virasaro symmetry in z-sector, has SL(2,C) conserved currents in the z-sector. This allows us to quantize this theory in the z-sector along the lines of the WZNW model. The quantum theory on hg\ =\ 1 surfaces in R3 is shown to be in the same universality class as the intrinsic 2-d gravity theory.

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