The Open String Regge Trajectory and Its Field Theory Limit

Abstract

We study the properties of the leading Regge trajectory in open string theory including the open string planar one-loop corrections. With SU(N) Chan-Paton factors, the sum over planar open string multi-loop diagrams describes the 't Hooft limit N∞. Our motivation is to improve the understanding of open string theory at finite α' as a model of gauge theories. SU(N) gauge theories in D space-time dimensions are described by requiring open strings to end on a stack of N Dp-branes of space-time dimension D=p+1. The large N leading trajectory α(t)=1+α' t+(t) can be extracted, through order g2, from the s-∞ limit, at fixed t, of the four open string tree and planar loop diagrams. We analyze the t0 behavior with the result that (t)-Cg2(-α' t)(D-4)/2/(D-4). This result precisely tracks the 1-loop Reggeized gluon of gauge theory in D>4 space-time dimensions. In particular, for D4 it reproduces the known infrared divergences of gauge theory in 4 dimensions with a Regge trajectory behaving as -(-α t). We also study (t) in the limit t-∞ and show that, when D<8, it behaves as α t/((-α t))γ, where γ>0 depends on D and the number of massless scalars. Thus, as long as 4<D<8, the 1-loop correction stays small relative to the tree trajectory for the whole range -∞<t<0. Finally we present the results of numerical calculations of (t) for all negative t.