Solving the Decompactification Problem in String Theory

E. Kiritsis; C. Kounnas; M. Petropoulos; J. Rizos

Solving the Decompactification Problem in String Theory

E. Kiritsis, C. Kounnas, M. Petropoulos, J. Rizos

Abstract

We investigate heterotic ground states in four dimensions in which N=4 supersymmetry is spontaneously broken to N=2. N=4 supersymmetry is restored at a decompactification limit corresponding to $m_{3/2}\to 0$. We calculate the full moduli dependent threshold corrections and confirm that they are supressed in the decompactification limit $m_{3/2}\to 0$ as expected from the restoration of N=4 supersymmetry. This should be contrasted with the behavior of the standard N=2 groundstates where the coupling blow up linearly with the volume of the decompactifying manifold. This mechanism provides a solution to the decompactification problem for the gauge coupling constants. We also discuss how the mechanism can be implemented in ground states with lower supersymmetry.

Solving the Decompactification Problem in String Theory

Abstract

We investigate heterotic ground states in four dimensions in which N=4 supersymmetry is spontaneously broken to N=2. N=4 supersymmetry is restored at a decompactification limit corresponding to

. We calculate the full moduli dependent threshold corrections and confirm that they are supressed in the decompactification limit

as expected from the restoration of N=4 supersymmetry. This should be contrasted with the behavior of the standard N=2 groundstates where the coupling blow up linearly with the volume of the decompactifying manifold. This mechanism provides a solution to the decompactification problem for the gauge coupling constants. We also discuss how the mechanism can be implemented in ground states with lower supersymmetry.

Solving the Decompactification Problem in String Theory

Abstract

Solving the Decompactification Problem in String Theory

Abstract

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