Nonlattice Simulation for Supersymmetric Gauge Theories in One Dimension
Abstract
Lattice simulation of supersymmetric gauge theories is not straightforward. In some cases the lack of manifest supersymmetry just necessitates cumbersome finetuning, but in the worse cases the chiral and/or Majorana nature of fermions makes it difficult to even formulate an appropriate lattice theory. We propose circumventing all these problems inherent in the lattice approach by adopting a nonlattice approach for onedimensional supersymmetric gauge theories, which are important in the string or M theory context. In particular, our method can be used to investigate the gaugegravity duality from first principles, and to simulate M theory based on the matrix theory conjecture.
 Publication:

Physical Review Letters
 Pub Date:
 October 2007
 DOI:
 10.1103/PhysRevLett.99.161602
 arXiv:
 arXiv:0706.1647
 Bibcode:
 2007PhRvL..99p1602H
 Keywords:

 11.30.Pb;
 11.10.Kk;
 11.15.Ha;
 Supersymmetry;
 Field theories in dimensions other than four;
 Lattice gauge theory;
 High Energy Physics  Lattice;
 High Energy Physics  Theory
 EPrint:
 REVTeX4, 4 pages, 3 figures