Classical and Quantized Tensionless Strings
Abstract
{}From the ordinary tensile string we derive a geometric action for the tensionless () string and discuss its symmetries and field equations. The Weyl symmetry of the usual string is shown to be replaced by a global space-time conformal symmetry in the limit. We present the explicit expressions for the generators of this group in the light-cone gauge. Using these, we quantize the theory in an operator form and require the conformal symmetry to remain a symmetry of the quantum theory. Modulo details concerning zero-modes that are discussed in the paper, this leads to the stringent restriction that the physical states should be singlets under space-time diffeomorphisms, hinting at a topological theory. We present the details of the calculation that leads to this conclusion.
Cite
@article{arxiv.hep-th/9307108,
title = {Classical and Quantized Tensionless Strings},
author = {J. Isberg and U. Lindström and B. Sundborg and G. Theodoridis},
journal= {arXiv preprint arXiv:hep-th/9307108},
year = {2009}
}
Comments
34 pages, Latex, USITP 93-12