Singlet-Assisted Supersymmetry Breaking For $Sp(2N)$ Theories
arXiv:1301.4721 · doi:10.1007/JHEP07(2013)151
Abstract
We investigate local supersymmetry-breaking vacua in s-confining theories with gauge group $Sp(2N)$. By adapting the general recipe developed by Shadmi and Shirman, we construct a realistic model based on dynamics of SQCD coupled with singlets which allows a spontaneously broken supersymmetry. Since the chiral superfields in model have R-charges R=0 and R=2 only, the tedious computations of Coleman-Weinberg potential can be greatly alleviated from the lesson of David Shih. We observe that the pseudomoduli fields are stabilized at the origin of moduli space at one-loop order with calculability being preserved.
11 pages, English presentation is improved and some statements are clarified, submit to JHEP