Monads, Strings, and M Theory
Abstract
The recent developments in string theory suggest that the space-time coordinates should be generalized to non-commuting matrices. Postulating this suggestion as the fundamental geometrical principle, we formulate a candidate for covariant second quantized RNS superstrings as a topological field theory in two dimensions. Our construction is a natural non-Abelian extension of the RNS string. It also naturally leads to a model with manifest 11-dimensional covariance, which we conjecture to be a formulation of M theory. The non-commuting space-time coordinates of the strings are further generalized to non-commuting anti-symmetric tensors. The usual space-time picture and the free superstrings appear only in certain special phases of the model. We derive a simple set of algebraic equations, which determine the moduli space of our model. We test some aspects of our conjectual M theory for the case of compactification on .
Keywords
Cite
@article{arxiv.hep-th/9706130,
title = {Monads, Strings, and M Theory},
author = {Christiaan Hofman and Jae-Suk Park},
journal= {arXiv preprint arXiv:hep-th/9706130},
year = {2009}
}
Comments
36 pages, TeX, harvmac, minor corrections with added reference