Moduli stabilization and supersymmetry breaking in string theory

We discuss the effect of the dynamics of D-branes on moduli stabilization in type IIB string theory compactifications, with reference to a concrete toy model of [Formula: see text] orientifold compactification with fractional D3-branes and anti-D3-branes at orbifold fixed points. The resulting attractive forces between anti-D3-branes and D3-branes, together with the repulsive forces between anti-D3-branes and O3-planes, can affect the stability of the compact space. There are no complex structure moduli in [Formula: see text] orientifold, which should thus capture some generic features of more general settings where all complex structure moduli are stabilized by three-form fluxes. The simultaneous presence of branes and anti-branes brings along the breaking of supersymmetry. Non-BPS combinations of this type are typical of “brane supersymmetry breaking” and are a necessary ingredient in the KKLT scenario for stabilizing the remaining Kähler moduli. The conclusion of our analysis is that, while mutual D-brane interactions sometimes help Kähler moduli stabilization, this is not always the case.

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Standard model from a supergravity model with a naturally small cosmological constant

Journal of High Energy Physics ◽

10.1007/jhep05(2021)181 ◽

2021 ◽

Vol 2021 (5) ◽

Author(s):

Shing Yan Li ◽

Yu-Cheng Qiu ◽

S.-H. Henry Tye

Keyword(s):

String Theory ◽

Standard Model ◽

Cosmological Constant ◽

Supersymmetry Breaking ◽

Supersymmetric Standard Model ◽

Degrees Of Freedom ◽

Interaction Terms ◽

Supersymmetric Version ◽

The Standard Model ◽

Linear Version

Abstract Guided by the naturalness criterion for an exponentially small cosmological constant, we present a string theory motivated 4-dimensional $$ \mathcal{N} $$ N = 1 non-linear supergravity model (or its linear version with a nilpotent superfield) with spontaneous supersymmetry breaking. The model encompasses the minimal supersymmetric standard model, the racetrack Kähler uplift, and the KKLT anti-D3-branes, and use the nilpotent superfield to project out the undesirable interaction terms as well as the unwanted degrees of freedom to end up with the standard model (not the supersymmetric version) of strong and electroweak interactions.

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PROGRESS IN WEAKLY COUPLED STRING PHENOMENOLOGY

International Journal of Modern Physics A ◽

10.1142/s0217751x02013022 ◽

2002 ◽

Vol 17 (supp01) ◽

pp. 70-83

Author(s):

MARY K. GAILLARD

Keyword(s):

String Theory ◽

Supersymmetry Breaking ◽

Particle Physics ◽

Specific Model ◽

Heterotic String ◽

Particle Spectrum ◽

Heterotic String Theory ◽

Hidden Sector ◽

String Phenomenology ◽

Weakly Coupled

The weakly coupled vacuum of E8 ⊗ E8 heterotic string theory remains an attractive scenario for particle physics. The particle spectrum and the issue of dilaton stabilization are reviewed. A specific model for hidden sector condensation and supersymmetry breaking, that respects known constraints from string theory, is described, and its phenomenological and cosmological implications are discussed.

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