We study some conditions for the hierarchy $m_{3/2} << M_P$ to occur
naturally in a generic effective supergravity theory. Absence of fine-tuning
and perturbative calculability require that the effective potential has a
sliding gravitino mass and vanishing cosmological constant, up to ${\cal
O}(m_{3/2}^4)$ corrections. In particular, cancellation of quadratically
divergent contributions to the one-loop effective potential should take place,
including the `hidden sector' of the theory. We show that these conditions can
be met in the effective supergravities derived from four-dimensional
superstrings, with supersymmetry broken either at the string tree level via
compactification, or by non-perturbative effects such as gaugino condensation.
A crucial role is played by some approximate scaling symmetries, which are
remnants of discrete target-space dualities in the large moduli limit. We
derive explicit formulae for the soft breaking terms arising from this class of
`large hierarchy compatible' (LHC) supergravities.Comment: 40 pages, no figures, CERN-TH.7192/94, LPTENS -94/12, UCLA/94/TEP13
  (plain LATEX, to be run twice). Some trivial misprints and references have
  been correcte

Ferrara, S.

Kounnas, C.

Zwirner, F.

Nuclear Physics B

English

arXiv

We study some conditions for the hierarchy m 3 2 ≪ MP to occur naturally in a generic effective supergravity theory. Absence of fine-tunuinf and perturbative calculabilty require that the effective potential has a sliding gravitino mass and vanishing cosmological constant, up to O(m 3 24) corrections. In particular, cancellation of quadratically divergent contributions to the one-loop effective potential should take place, including the 'hidden sector' of the theory. We show that these conditions can be met in the effective supergravities derived from four-dimensional superstrings, with supersymmetry broken either at the string tree-level via compactification, or by non-perturbative effects such as gaugino condensation. A crucial role is played by some approximate scaling symmetries, which are remnants of discrete target-space dualities in the large moduli limit. We derive explicit formulae for the soft breaking terms arising from this class of 'large hierarchy compatible' (LHC) supergravities. © 1994

S. Ferrara

C. Kounnas

ZWIRNER, FABIO

Archivio istituzionale della ricerca - Università di Padova

Mass formulae and natural hierarchy in string effective supergravities

MUCC (Crossref)

We study some conditions for the hierarchy m_{3/2} << M_P to occur naturally in a generic effective supergravity theory. Absence of fine-tuning and perturbative calculability require that the effective potential has a sliding gravitino mass and vanishing cosmological constant, up to {\cal O}(m_{3/2}^4) corrections. In particular, cancellation of quadratically divergent contributions to the one-loop effective potential should take place, including the "hidden sector" of the theory. We show that these conditions can be met in the effective supergravities derived from four-dimensional superstrings, with supersymmetry broken either at the string tree level via compactification, or by non-perturbative effects such as gaugino condensation. A crucial role is played by some approximate scaling symmetries, which are remnants of discrete target-space dualities in the large moduli limit. We derive explicit formulae for the soft breaking terms arising from this class of "large hierarchy compatible" (LHC) supergravities.We study some conditions for the hierarchy m 3 2 ⪡ M P to occur naturally in a generic effective supergravity theory. Absence of fine-tunuinf and perturbative calculabilty require that the effective potential has a sliding gravitino mass and vanishing cosmological constant, up to O(m 3 2 4 ) corrections. In particular, cancellation of quadratically divergent contributions to the one-loop effective potential should take place, including the ‘hidden sector’ of the theory. We show that these conditions can be met in the effective supergravities derived from four-dimensional superstrings, with supersymmetry broken either at the string tree-level via compactification, or by non-perturbative effects such as gaugino condensation. A crucial role is played by some approximate scaling symmetries, which are remnants of discrete target-space dualities in the large moduli limit. We derive explicit formulae for the soft breaking terms arising from this class of ‘large hierarchy compatible’ (LHC) supergravities.We study some conditions for the hierarchy $m_{3/2} << M_P$ to occur naturally in a generic effective supergravity theory. Absence of fine-tuning and perturbative calculability require that the effective potential has a sliding gravitino mass and vanishing cosmological constant, up to ${\cal O}(m_{3/2}^4)$ corrections. In particular, cancellation of quadratically divergent contributions to the one-loop effective potential should take place, including the `hidden sector' of the theory. We show that these conditions can be met in the effective supergravities derived from four-dimensional superstrings, with supersymmetry broken either at the string tree level via compactification, or by non-perturbative effects such as gaugino condensation. A crucial role is played by some approximate scaling symmetries, which are remnants of discrete target-space dualities in the large moduli limit. We derive explicit formulae for the soft breaking terms arising from this class of `large hierarchy compatible' (LHC) supergravities

Ferrara, Sergio

Kounnas, Costas

Zwirner, Fabio

CERN Document Server

Mass formulae and natural hierarchy in string effective supergravities

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Archivio istituzionale della ricerca - Università di Padova

MUCC (Crossref)

CERN Document Server