English

Preserving Flat Directions During Inflation

High Energy Physics - Phenomenology 2009-09-15 v1 Astrophysics High Energy Physics - Theory

Abstract

Supersymmetry is generally broken by the non-vanishing vacuum energy density present during inflation. In supergravity models, such a source of supersymmetry breaking typically makes a contribution to scalar masses of order m~2H2{\tilde m}^2 \sim H^2, where H2V/MP2H^2 \sim V/M_P^2 is the Hubble parameter during inflation. We show that in supergravity models which possess a Heisenberg symmetry, supersymmetry breaking makes no contribution to scalar masses, leaving supersymmetric flat directions flat at tree-level. One-loop corrections in general lift the flat directions, but naturally give small negative squared masses g2H2/(4π)2\sim - g^2 H^2/(4\pi)^2 for all flat directions that do not involve the stop. No-scale supergravity of the SU(N,1) type and the untwisted sectors from orbifold compactifications are special cases of this general set of models. We point out the importance of the preservation of flat directions for baryogenesis.

Keywords

Cite

@article{arxiv.hep-ph/9504307,
  title  = {Preserving Flat Directions During Inflation},
  author = {Mary K. Gaillard and Hitoshi Murayama and Keith A. Olive},
  journal= {arXiv preprint arXiv:hep-ph/9504307},
  year   = {2009}
}

Comments

12 pages, no figures