A Two-Loop Test of M(atrix) Theory

Katrin Becker; Melanie Becker

A Two-Loop Test of M(atrix) Theory

Katrin Becker, Melanie Becker

Abstract

We consider the scattering of two Dirichlet zero-branes in M(atrix) theory. Using the formulation of M(atrix) theory in terms of ten-dimensional super Yang-Mills theory dimensionally reduced to $(0+1)$-dimensions, we obtain the effective (velocity dependent) potential describing these particles. At one-loop we obtain the well known result for the leading order of the effective potential $V_{eff}\sim v^4/r^7$, where $v$ and $r$ are the relative velocity and distance between the two zero-branes respectively. A calculation of the effective potential at two-loops shows that no renormalizations of the $v^4$-term of the effective potential occur at this order.

A Two-Loop Test of M(atrix) Theory

Abstract

We consider the scattering of two Dirichlet zero-branes in M(atrix) theory. Using the formulation of M(atrix) theory in terms of ten-dimensional super Yang-Mills theory dimensionally reduced to

-dimensions, we obtain the effective (velocity dependent) potential describing these particles. At one-loop we obtain the well known result for the leading order of the effective potential

, where

and

are the relative velocity and distance between the two zero-branes respectively. A calculation of the effective potential at two-loops shows that no renormalizations of the

-term of the effective potential occur at this order.

A Two-Loop Test of M(atrix) Theory

Abstract

A Two-Loop Test of M(atrix) Theory

Abstract

Paper Structure

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