Covariantized Matrix theory for D-particles
Abstract
We reformulate the Matrix theory of D-particles in a manifestly Lorentz-covariant fashion in the sense of 11 dimesnional flat Minkowski space-time, from the viewpoint of the so-called DLCQ interpretation of the light-front Matrix theory. The theory is characterized by various symmetry properties including higher gauge symmetries, which contain the usual SU() symmetry as a special case and are extended from the structure naturally appearing in association with a discretized version of Nambu's 3-bracket. The theory is scale invariant, and the emergence of the 11 dimensional gravitational length, or M-theory scale, is interpreted as a consequence of a breaking of the scaling symmetry through a super-selection rule. In the light-front gauge with the DLCQ compactification of 11 dimensions, the theory reduces to the usual light-front formulation. In the time-like gauge with the ordinary M-theory spatial compactification, it reduces to a non-Abelian Born-Infeld-like theory, which in the limit of large becomes equivalent with the original BFSS theory.
Cite
@article{arxiv.1603.06402,
title = {Covariantized Matrix theory for D-particles},
author = {Tamiaki Yoneya},
journal= {arXiv preprint arXiv:1603.06402},
year = {2016}
}
Comments
47 pages, 1 figure, the version to be published in JHEP, corrected typos, added sentences and references