Semi-simple group unification in the supersymmetric brane world

The conventional supersymmetric grand unified theories suffer from two se-rious problems, the large mass splitting between doublet and triplet Higgs multiplets, and the too long lifetime of the proton. A unification model based on a semi-simple group SU(5) GUT × U(3) H has been proposed to solve both of the problems simultaneously. Although the proposed model is perfectly consistent with observations, there are various mysteries. In this paper, we show that such mysterious features in the original model are naturally explained by embedding the model into the brane world in a higher dimensional space-time. In particular, the relatively small gauge coupling constant of the SU(5) GUT at the unification energy scale is a consequence of relatively large volume of extra dimensions. Here, we put the SU(5) GUT gauge multiplet in a 6-dimensional bulk and assume all fields in the U(3) H sector to reside on a 3-dimensional brane located in the bulk. On the other hand, all chiral multiplets of quarks, leptons and Higgs are assumed to reside on a 3-brane at a T 2 / Z 4 orbifold fixed point. The quasi- N = 2 supersymmetry in the hypercolor U(3) H sector is understood as a low-energy remnant of the N = 4 supersymmetry in a 6-dimensional space-time. We further extend the 6-dimensional model to a 10-dimensional theory. Possible frameworks of string theories are also investi-gated to accommodate the present brane-world model. We find that the type