Charged string solutions with dilaton and modulus fields

Abstract

We find charged, abelian, spherically symmetric solutions (in flat space-time) corresponding to the effective action of D=4 heterotic string theory with scale-dependent dilaton and modulus fields. We take into account perturbative (genus-one), moduli-dependent `threshold' corrections to the coupling function f(,) in the gauge field kinetic term f(,) F2, as well as non-perturbative scalar potential V(, ), e.g. induced by gaugino condensation in the hidden gauge sector. Stable, finite energy, electric solutions (corresponding to on abelian subgroup of a non-abelian gauge group) have the small scale region as the weak coupling region (φ -∞) with the modulus slowly varying towards smaller values. Stable, finite energy, abelian magnetic solutions exist only for a specific range of threshold correction parameters. At small scales they correspond to the strong coupling region ( ∞) and the compactification region ( 0). The non-perturbative potential V plays a crucial role at large scales, where it fixes the asymptotic values of φ and to be at the minimum of V.

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