Can the Supersymmetric Flavour Problem decouple in case of a Non Standard Supersymmetric Spectrum?

TL;DR

This paper explores whether the supersymmetric flavour problem can be alleviated in models with a non-standard supersymmetric spectrum, especially those without a light Higgs boson, highlighting different phenomenological implications.

Contribution

It demonstrates that the supersymmetric flavour problem can be addressed in non-standard spectra lacking a light Higgs, under specific conditions like low messenger scale and sfermion degeneracy.

Findings

Solutions are more promising in models without a light Higgs.

Increased quartic coupling plays a crucial role.

Phenomenology differs significantly from the MSSM.

Abstract

It has been shown that, in the context of the MSSM, the Supersymmetric Flavour Problem cannot be solved by just letting the sfermions of the first two generations be relatively heavy. The reason is twofold: naturalness of the Fermi scale on one side, need for positive squared stop masses on the other. The situation is much more promising in models without a light Higgs boson, in which the goal can be met. The prices are: a relatively low messenger scale, semiperturbativity before the GUT scale, and some amount of degeneracy/alignement of order of the Cabibbo angle in the sfermion sector. A crucial role is played by the increased quartic coupling. The resulting phenomenology is quite different from the MSSM one in many respects.