Non-trivial extension of the (1+2)-Poincaré algebra and conformal invariance on the boundary of 
                ${\mathrm{AdS}}_3$

Benkaddour, I.; Rhalami, A. El; Saidi, El Hassan

doi:10.1007/s100520100769

Cited by 5 publications

(3 citation statements)

References 18 publications

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“…where B ex = ε 3µν ∂ µ A ex ν and using eq(4.6), one gets relation the density ρ 0 of electrons and quantum fluxes, namely ρ 0 = ν Bex 2π . Quantum mechanically, there are different field theoretical methods to approach the quantum states of this system, either by using techniques of non relativistic quantum mechanics [36], methods of conformal field theory especially for the study of droplets and edge excitations [31,32] or again by using the CS effective field model [33] describing the limit N → ∞ of electrons where now the Hall system is viewed as a liquid of particles. In this case, the Chern Simons theory in the (2 + 1) dimensional space modeling the FQH Laughlin state of filling fraction ν = 1 k is obtained by interpreting the ρ 0 density as…”

Section: General On Susskind Nc Theorymentioning

confidence: 99%

NC Effective Gauge Model for Multilayer FQH States

Rhalami¹,

Saidi²

2002

J. High Energy Phys.

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We develop an effective field model for describing FQH states with rational filling factors that are not of Laughlin type. These kinds of systems, which concern single layer hierarchical states and multilayer ones, were observed experimentally; but have not yet a satisfactory non commutative effective field description like in the case of Susskind model. Using D brane analysis and fiber bundle techniques, we first classify such states in terms of representations characterized, amongst others, by the filling factor of the layers; but also by proper subgroups of the underlying U (n) gauge symmetry. Multilayer states in the lowest Landau level are interpreted in terms of systems of D2 branes; but hierarchical ones are realized as Fiber bundles on D2 which we construct explicitly. In this picture, Jain and Haldane series are recovered as special cases and have a remarkable interpretation in terms of Fiber bundles with specific intersection matrices. We also derive the general NC commutative effective field and matrix models for FQH states, extending Susskind theory, and give the general expression of the rational filling factors as well as their non abelian gauge symmetries.

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Section: General On Susskind Nc Theorymentioning

confidence: 99%

NC Effective Gauge Model for Multilayer FQH States

Rhalami¹,

Saidi²

2002

J. High Energy Phys.

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“…Fractional supersymmetry (FSUSY) [9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28] is among the possible extensions of supersymmetry which have been studied in the literature. Basically, in such extensions, the generators of the Poincaré algebra are obtained as F −fold (F ∈ N ⋆ ) symmetric products of more fundamental generators.…”

Section: Introductionmentioning

confidence: 99%

“…It is generally accepted that because of the theorems of Coleman & Mandula [4] and Haag, Lopuszanski & Sohnius [5], one cannot go beyond supersymmetry. However, if one weakens the hypotheses of these two theorems, one can imagine symmetries which go beyond supersymmetry [6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28], the idea being that then the generators of the Poincaré algebra can be obtained as an appropriate product of more than two fundamental additional symmetries.…”

Section: Introductionmentioning

confidence: 99%

Finite-dimensional Lie algebras of order F

Traubenberg

Slupinski

2002

Journal of Mathematical Physics

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F −Lie algebras are natural generalisations of Lie algebras (F = 1) and Lie superalgebras (F = 2). When F > 2 not many finite-dimensional examples are known. In this paper we construct finitedimensional F −Lie algebras F > 2 by an inductive process starting from Lie algebras and Lie superalgebras. Matrix realisations of F −Lie algebras constructed in this way from su(n), sp(2n) so(n) and sl(n|m), osp(2|m) are given. We obtain non-trivial extensions of the Poincaré algebra by Inönü-Wigner contraction of certain F −Lie algebras with F > 2.

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Finiteness of 3D higher spin gravity Landscape

Sammani,

Boujakhrout,

Saidi

et al. 2024

Class. Quantum Grav.

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We give Swampland constraints on the three dimensional Landscape of Anti-de Sitter higher spin gravity in the Chern-Simons formulation with connection valued in various split real forms of Lie algebras. We derive the finiteness conjecture by computing the upper bound on the rank of possible gauge groups then we refine it using the AdS distance conjecture. We discuss the implications of this Swampland constraint on the spectrum of higher spin gravity theories and we compare it with the gravitational exclusion principle required from BTZ black hole consideration to excerpt a constraint on the Chern-Simons level k.

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Non-trivial extension of the (1+2)-Poincaré algebra and conformal invariance on the boundary of ${\mathrm{AdS}}_3$

Cited by 5 publications

References 18 publications

NC Effective Gauge Model for Multilayer FQH States

NC Effective Gauge Model for Multilayer FQH States

Finite-dimensional Lie algebras of order F

Finiteness of 3D higher spin gravity Landscape

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