Search results for "Supersymmetry algebra"

showing 10 items of 11 documents

The Virasoro Algebra

1989

In this chapter we shall study the Lie algebra Vect S1 of vector fields on a circle and some of its generalizations. The Lie algebra Vect S1 has a central extension, the Virasoro algebra. The representation theory of the Virasoro algebra is closely related to the representation theory of affine Lie algebras. In fact, through the Sugawara construction, to be defined below, a highest weight representation of an affine Lie algebra carries always a highest weight representation of the Virasoro algebra. All the irreducible highest weight representations of the Virasoro algebra are known and they can be exponentiated to representations of associated infinite-dimensional Lie groups. The representa…

Filtered algebraHigh Energy Physics::TheoryPure mathematicsMathematics::Quantum AlgebraCurrent algebraCellular algebraVirasoro algebraUniversal enveloping algebraWitt algebraAffine Lie algebraMathematicsSupersymmetry algebra

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Quantum deformation of the Poincare supergroup and kappa -deformed superspace

1994

The classical $r$-matrix for $N=1$ superPoincar{\'e} algebra, given by Lukierski, Nowicki and Sobczyk is used to describe the graded Poisson structure on the $N=1$ Poincar{\'e} supergroup. The standard correspondence principle between the even (odd) Poisson brackets and (anti)commutators leads to the consistent quantum deformation of the superPoincar{\'e} group with the deformation parameter $q$ described by fundamental mass parameter $\kappa \quad (\kappa^{-1}=\ln{q})$. The $\kappa$-deformation of $N=1$ superspace as dual to the $\kappa$-deformed supersymmetry algebra is discussed.

High Energy Physics - TheoryPhysicsGroup (mathematics)General Physics and AstronomyStatistical and Nonlinear PhysicsSuperspacePoisson bracketPoisson manifoldCorrespondence principleSupergroupQuantumMathematical PhysicsMathematical physicsSupersymmetry algebraJournal of Physics A: Mathematical and General

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Spinor moving frame, M0-brane covariant BRST quantization and intrinsic complexity of the pure spinor approach

2007

To exhibit the possible origin of the inner complexity of the Berkovits's pure spinor approach, we consider the covariant BRST quantization of the D=11 massless superparticle (M0-brane) in its spinor moving frame or twistor-like Lorentz harmonics formulation. The presence of additional twistor-like variables (spinor harmonics) allows us to separate covariantly the first and the second class constraints. After taking into account the second class constraints by means of Dirac brackets and after further reducing the first class constraints algebra, the dynamical system is described by the cohomology of a simple BRST charge associated to the d=1, n=16 supersymmetry algebra. The calculation of …

High Energy Physics - TheoryPhysicsNuclear and High Energy PhysicsPure spinorSpinorHigh Energy Physics::PhenomenologyFOS: Physical sciencesSupersymmetryCohomologyBRST quantizationHigh Energy Physics::TheoryHigh Energy Physics - Theory (hep-th)Spinor fieldQuantum mechanicsBraneMathematical physicsSupersymmetry algebraPhysics Letters B

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D=11massless superparticle covariant quantization, pure spinor BRST charge and hidden symmetries

2007

We consider the covariant quantization of the D=11 massless superparticle (M0-brane) in the spinor moving frame or twistor-like Lorentz harmonics formulation. The action involves the set of 16 constrained 32 component Majorana spinors, the spinor Lorentz harmonics parametrizing (as homogeneous coordinates, modulo gauge symmetries) the celestial sphere S9. There presence allows us to separate covariantly the first and the second class constraints of the model. After taking into account the second class constraints by means of Dirac brackets and after further reducing the first class constraints algebra, the system is described in terms of a simple BRST charge associated to the d=1, n=16 supe…

High Energy Physics - TheoryPhysicsNuclear and High Energy PhysicsSpinorPure spinorSupergravityFOS: Physical sciencesBRST quantizationCohomologyTwistor theoryHigh Energy Physics::TheoryHigh Energy Physics - Theory (hep-th)Quantum mechanicsCovariant transformationSupersymmetry algebraMathematical physicsNuclear Physics B

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Supersymmetry and Noncommutative Geometry

1996

The purpose of this article is to apply the concept of the spectral triple, the starting point for the analysis of noncommutative spaces in the sense of A.~Connes, to the case where the algebra $\cA$ contains both bosonic and fermionic degrees of freedom. The operator $\cD$ of the spectral triple under consideration is the square root of the Dirac operator und thus the forms of the generalized differential algebra constructed out of the spectral triple are in a representation of the Lorentz group with integer spin if the form degree is even and they are in a representation with half-integer spin if the form degree is odd. However, we find that the 2-forms, obtained by squaring the connectio…

High Energy Physics - TheoryPhysicsOperator (physics)General Physics and AstronomyFOS: Physical sciencesSupersymmetryDirac operatorNoncommutative geometryLorentz groupsymbols.namesakeHigh Energy Physics - Theory (hep-th)symbolsGeometry and TopologyMultipletSpectral tripleMathematical PhysicsSupersymmetry algebraMathematical physics

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Leaving the BPS bound: Tunneling of classically saturated solitons

2000

We discuss quantum tunneling between classically BPS saturated solitons in two-dimensional theories with N=2 supersymmetry and a compact space dimension. Genuine BPS states form shortened multiplets of dimension two. In the models we consider there are two degenerate shortened multiplets at the classical level, but there is no obstruction to pairing up through quantum tunneling. The tunneling amplitude in the imaginary time is described by instantons. We find that the instanton is nothing but the 1/4 BPS saturated ``wall junction,'' considered previously in the literature in other contexts. Two central charges of the superalgebra allow us to calculate the instanton action without finding th…

PhysicsHigh Energy Physics - TheoryNuclear and High Energy PhysicsInstantonDegenerate energy levelsFOS: Physical sciencesSupersymmetrySuperalgebraHigh Energy Physics::TheoryHigh Energy Physics - Theory (hep-th)PairingQuantum mechanicsSolitonCentral chargeSupersymmetry algebraMathematical physics

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On the underlying gauge group structure of D=11 supergravity

2004

The underlying gauge group structure of D=11 supergravity is revisited (see paper for detailed abstract).

PhysicsHigh Energy Physics - TheoryNuclear and High Energy PhysicsSupergravityHigh Energy Physics::LatticeHigh Energy Physics::PhenomenologyLie groupFOS: Physical sciencesAutomorphismSuperalgebraGeneral Relativity and Quantum CosmologyHigh Energy Physics::TheoryHigh Energy Physics - Theory (hep-th)Gauge groupComputer Science::General LiteratureGauge theoryCentral chargeSupersymmetry algebraMathematical physicsPhysics Letters B

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Kaluza-Klein origin for the superstring tension

1992

The natural configuration space of a string in a background antisymmetric tensor potential is not loop space, but a principal U(1) bundle over loop space. This allows a Kaluza-Klein--like interpretation of the string tension as momentum along the U(1) fiber, and a similar interpretation is possible for a {ital p}-dimensional object. The higher-dimensional'' action incorporating this momentum as a dynamical variable is given for a {ital p}-dimensional supersymmetric extended object, in a general supergravity background. Its relevance, for a flat background, to classical anomalies'' in the supersymmetry algebra is explained.

PhysicsHigh Energy Physics::TheoryClassical mechanicsAntisymmetric tensorSupergravityLoop spaceKaluza–Klein theorySuperstring theorySupersymmetryString (physics)Supersymmetry algebraMathematical physicsPhysical Review D

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Supersymmetry currents and WZ-like terms in (supersymmetry)2 models

1990

Abstract Using the superfield formulation of the N = 1 spinning superparticle model as an example, the superfield currents associated with the target space supersymmetry are given, and the component expression of the corresponding superalgebra is found to describe a graded “doubling” of the Poincare superalgebra. Further, it is shown how the torsion-like term in the spinning super-particle model can be obtained from the form associated with the Green-Schwarz WZ term for the superstring, and a possible way of introducing extended spinning supersymmetric objects is discussed.

PhysicsLike termsNuclear and High Energy PhysicsParticle physicsCurrent (mathematics)High Energy Physics::PhenomenologySuperstring theorySupersymmetrySpace (mathematics)SuperalgebraHigh Energy Physics::TheorySupersymmetry algebraMathematical physicsSpin-½Physics Letters B

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Vector supersymmetry in the universal bundle

1991

Abstract We present a vector supersymmetry for Witten-type topological gauge theories, and examine its algebra in terms of a superconnection formalism. When covariant constraints on the supercurvature are chosen, a correspondence is established with the universal bundle construction of Atiyah and Singer. The vector supersymmetry represents a certain shift operator in the curvature of the universal bundle, and can be used to generate the hierarchy of observables in these theories. This formalism should lead to the construction of vector supergravity theories, and perhaps to the gravitational analogue of the universal bundle.

PhysicsNuclear and High Energy PhysicsParticle physicsSupergravityHigh Energy Physics::PhenomenologySupersymmetryCurvatureShift operatorHigh Energy Physics::TheoryTheoretical physicsUniversal bundleCovariant transformationGauge theoryMathematics::Symplectic GeometryGeneral Theoretical PhysicsSupersymmetry algebraPhysics Letters B

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