Effective Action for Membrane Dynamics in DLCQ M theory on a Two-torus

Abstract

The effective action for the membrane dynamics on the background geometry of the N-sector DLCQ M theory compactified on a two-torus is computed via supergravity. We compare it to the effective action obtained from the matrix theory, i.e., the (2+1)-dimensional supersymmetric Yang-Mills (SYM) theory, including the one-loop perturbative and full non-perturbative instanton effects. Consistent with the DLCQ prescription of M theory a la Susskind, we find the precise agreement for the finite N-sector (off-conformal regime), as well as for the large N limit (conformal regime), providing us with a concrete example of the correspondence between the matrix theory and the DLCQ M theory. Non-perturbative instanton effects in the SYM theory conspire to yield the eleven-dimensionally covariant effective action.

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