<p>We present a careful study of the chiral symmetry breaking minima and other potential minima in supersymmetric symplectic QCD (Sp(<i>N</i><sub><i>c</i></sub>) with <i>N</i><sub><i>f</i></sub> flavors) perturbed by Anomaly Mediated Supersymmetry Breaking (AMSB). Although the case of <i>N</i><sub><i>f</i></sub> = <i>N</i><sub><i>c</i></sub> + 1 requires particular care due to the inherently strongly coupled nature of the quantum modified moduli space, we are able to show that all Sp(<i>N</i><sub><i>c</i></sub>) theories to which AMSB can be applied (<i>N</i><sub><i>f</i></sub> <i>&lt;</i> 3(<i>N</i><sub><i>c</i></sub> + 1)) possess stable chiral symmetry breaking minima, which are plausibly continuously connected to the vacua of QCD-like Sp(<i>N</i><sub><i>c</i></sub>) theories for large SUSY breaking, and are protected from runaways to incalculable minima.</p>

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AMSB in Sp(Nc) gauge theories

  • Digvijay Roy Varier,
  • Zijian Gu,
  • Bea Noether,
  • Hitoshi Murayama

摘要

We present a careful study of the chiral symmetry breaking minima and other potential minima in supersymmetric symplectic QCD (Sp(Nc) with Nf flavors) perturbed by Anomaly Mediated Supersymmetry Breaking (AMSB). Although the case of Nf = Nc + 1 requires particular care due to the inherently strongly coupled nature of the quantum modified moduli space, we are able to show that all Sp(Nc) theories to which AMSB can be applied (Nf < 3(Nc + 1)) possess stable chiral symmetry breaking minima, which are plausibly continuously connected to the vacua of QCD-like Sp(Nc) theories for large SUSY breaking, and are protected from runaways to incalculable minima.