English

The Automorphic Membrane

High Energy Physics - Theory 2010-01-15 v2

Abstract

We present a 1-loop toroidal membrane winding sum reproducing the conjectured MM-theory, four-graviton, eight derivative, R4R^4 amplitude. The UU-duality and toroidal membrane world-volume modular groups appear as a Howe dual pair in a larger, exceptional, group. A detailed analysis is carried out for MM-theory compactified on a 3-torus, where the target-space Sl(3,\Zint)×Sl(2,\Zint)Sl(3,\Zint)\times Sl(2,\Zint) UU-duality and Sl(3,\Zint)Sl(3,\Zint) world-volume modular groups are embedded in E6(6)(\Zint)E_{6(6)}(\Zint). Unlike previous semi-classical expansions, UU-duality is built in manifestly and realized at the quantum level thanks to Fourier invariance of cubic characters. In addition to winding modes, a pair of new discrete, flux-like, quantum numbers are necessary to ensure invariance under the larger group. The action for these modes is of Born-Infeld type, interpolating between standard Polyakov and Nambu-Goto membrane actions. After integration over the membrane moduli, we recover the known R4R^4 amplitude, including membrane instantons. Divergences are disposed of by trading the non-compact volume integration for a compact integral over the two variables conjugate to the fluxes -- a constant term computation in mathematical parlance. As byproducts, we suggest that, in line with membrane/fivebrane duality, the E6E_6 theta series also describes five-branes wrapped on T6T^6 in a manifestly U-duality invariant way. In addition we uncover a new action of E6E_6 on ten dimensional pure spinors, which may have implications for ten dimensional super Yang--Mills theory. An extensive review of Sl(3)Sl(3) automorphic forms is included in an Appendix.

Keywords

Cite

@article{arxiv.hep-th/0404018,
  title  = {The Automorphic Membrane},
  author = {Boris Pioline and Andrew Waldron},
  journal= {arXiv preprint arXiv:hep-th/0404018},
  year   = {2010}
}

Comments

43 pages, 1 figure, JHEP3.cls style; v2: misprints corrected, differs from JHEP version