General mass formula in broken supersymmetry

After an introduction recalling the theoretical motivation for low energy (100 GeV to TeV scale) supersymmetry, this review describes the theory and experimental implications of the soft supersymmetry-breaking Lagrangian of the general minimal supersymmetric standard model (MSSM). Extensions to include neutrino masses and nonminimal theories are also discussed. Topics covered include models of supersymmetry breaking, phenomenological constraints from electroweak symmetry breaking, flavor/CP violation, collider searches, and cosmological constraints including dark matter and implications for baryogenesis and inflation.

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“…This can be seen from the following sum rule, known as the supertrace relation, for particles of spin J [59,17] …”

Section: Tev Scale Supersymmetry Breakingmentioning

confidence: 99%

The soft supersymmetry-breaking Lagrangian: theory and applications

Chung

Everett

Kane³

et al. 2005

Physics Reports

415

339

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“…The Ferrara-Girardello-Palumbo mass sum rule [27] requires supersymmetric particle masses below the corresponding Standard Model particle masses in this case -in obvious disagreement with observations. The elegant concept of spontaneous symmetry breaking, by non-perturbative gluino condensation for instance, can be realized, however, in a hidden sector which interacts with our eigen-world only by gravity.…”

Section: Minimal Supergravity -Msugramentioning

confidence: 81%

“…The properties of the supersymmetric theories are quite different for dilaton and moduli dominated scenarios. This can be quantified by introducing a mixing angle θ, characterizing theS andT wave functions of the Goldstino, which is associated with the breaking of supersymmetry and which is absorbed to generate the mass of the gravitino:G = sin θS + cos θT (27) The mass scale is set by the second parameter of the theory, the gravitino mass m 3/2 . A dilaton dominated scenario, i.e.…”

Section: String Induced Supersymmetry Breakingmentioning

confidence: 99%

Reconstruction of supersymmetric theories at high energy scales

Blair¹

2001

AIP Conference Proceedings

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The reconstruction of fundamental parameters in supersymmetric theories requires the evolution to high scales, where the characteristic regularities in mechanisms of supersymmetry breaking become manifest. We have studied a set of representative examples in this context: minimal supergravity and a left-right symmetric extension; gauge mediated supersymmetry breaking; and superstring effective field theories. Through the evolution of the parameters from the electroweak scale the regularities in different scenarios at the high scales can be unravelled if precision analyses of the supersymmetric particle sector at e + e − linear colliders are combined with analyses at the LHC.

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“…3 Although we do not know which mechanism is realized in nature, we would like SUSY to be broken in such a way that it still can allow a natural extension of the SM to a higher energy. It has been studied how this requirement can be met, and found that SUSY has to be only softly broken [8]. The softsupersymmetry breaking (SSB) terms are those which do not change the infinity structure of the parameters of the symmetric theory, and do not produce quadratic divergences.…”

Section: How Do We Like Susy To Be Broken?mentioning

confidence: 99%

“…So they are additional terms in the Lagrangian that do not change the RG functions such as the β and γ functions of the symmetric theory. There exist four types of such terms [8]: (m 2 ) j i φ j φ * i (soft scalar mass terms), B ij φ i φ j (B-terms), Mλλ (gaugino mass terms), h ijk φ i φ j φ k (trilinear scalar couplings), where φ j and λ denote the scalar component in a chiral supermultiplet and the gaugino in a gauge supermultiplet, respectively.…”

Section: How Do We Like Susy To Be Broken?mentioning

confidence: 99%