1998
DOI: 10.1103/physrevd.58.015009
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Effective action ofN=1supersymmetric Yang-Mills theory

Abstract: We propose a generalization of the Veneziano-Yankielowicz effective low-energy action for Nϭ1 SUSY Yang-Mills theory which includes composite operators interpolating pure gluonic bound states. The chiral supermultiplet of anomalies is embedded in a larger three-form multiplet and an extra term in the effective action is introduced. The mass spectrum and mixing of the lowest-spin bound states are studied within the effective Lagrangian approach. The physical mass eigenstates form two multiplets, each containing… Show more

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Cited by 86 publications
(199 citation statements)
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“…The glueballs of Yang-Mills theory are completed with the mesonic states (gluino-balls) and the fermionic gluino-glue particle. The proposed supersymmetric low energy effective actions are constructed from two multiplets of particles [2,3]. The…”
Section: Supersymmetric Yang-mills Theory On the Latticementioning
confidence: 99%
See 1 more Smart Citation
“…The glueballs of Yang-Mills theory are completed with the mesonic states (gluino-balls) and the fermionic gluino-glue particle. The proposed supersymmetric low energy effective actions are constructed from two multiplets of particles [2,3]. The…”
Section: Supersymmetric Yang-mills Theory On the Latticementioning
confidence: 99%
“…One of them is to understand the non-perturbative interaction of the gluinos in supersymmetric extensions of the standard model. There exist theoretical predictions for the low energy effective theory [2,3] that can be compared to the lattice results. Another motivation for the numerical investigations of SYM on the lattice is related to possible connections to ordinary QCD, as provided by the orientifold planar equivalence [4].…”
Section: Introductionmentioning
confidence: 99%
“…Following results from effective action analyses [3], we expect to see two chiral multiplets at the bottom of the SYM mass spectrum. Their content is a spin-1 2 fermion (the gluino-glueball) and two bosonic states with opposite parity: a scalar and pseudoscalar gluino-gluino bound state (gluinoball) a − f 0 and a − η ′ (a denoting the adjoint representation of the gluinos) and the scalar and pseudoscalar glueball with J P C = 0 −+ and 0 ++ .…”
Section: N=1 Sym On the Latticementioning
confidence: 99%
“…P (2) n2 is a correction factor that is accounted for by a global accept-reject step. The algorithm is made exact by a third polynomial P (3) n3 through reweighting the gauge configurations in the expectation values. where we also indicate the ǫ and λ used in the simulations.…”
Section: Expectation Values Of Operators Readmentioning
confidence: 99%
“…The first prediction for a low-energy effective action was derived from one supersymmetry multiplet that contains the meson operators a − f 0 (λ λ ), a − η (λ γ 5 λ ), and the fermionic gluino-glue (σ µν F µν λ ) [2]. Later on, as an extension of the low energy effective theory, a multiplet of glueball operators (0 ++ and 0 −+ ) and the fermionic gluino-glue was added [3].…”
Section: Introductionmentioning
confidence: 99%