Search results for "Real form"

showing 10 items of 11 documents

Actions of complex Lie groups on analytic ?-algebras

1987

On a reduced analytic .ℂ-algebraR there are faithful analytic actions of complex Lie groups of arbitrarily high dimension if and only ifR has Krull dimension ≥2.

AlgebraAdjoint representation of a Lie algebraRepresentation of a Lie groupGeneral MathematicsSimple Lie groupLie algebraReal formLie theoryKrull dimensionRepresentation theoryMathematicsMonatshefte f�r Mathematik
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Star-products and phase space realizations of quantum groups

1992

It is shown for a family of *-products (i.e. different ordering rules) that, under a strong invariance condition, the functions of the quadratic preferred observables (which generate the Cartan subalgebra in phase space realization of Lie algebras) take only the linear or exponential form. An exception occurs for the case of a symmetric ordering *-product where trigonometric functions and two special polynomials can also be included. As an example, the ‘quantized algebra’ of the oscillator Lie algebra is argued.

AlgebraPure mathematicsSubalgebraCartan matrixCartan subalgebraReal formStatistical and Nonlinear PhysicsKilling formKac–Moody algebraMathematical PhysicsMathematicsLie conformal algebraGraded Lie algebraLetters in Mathematical Physics
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Semisimple Lie Algebras

1989

Let F be the field of real or complex numbers. A Lie algebra is a vector space g over F with a Lie product (or commutator) [·,·]: g × g → g such that $$x \mapsto \left[ {x,y} \right]\;is\;linear\;for\;any\;y \in g,$$ (1) $$\left[ {x,y} \right] =- \left[ {y,x} \right],$$ (2) $$\left[ {x,\left[ {y,z} \right]} \right] + \left[ {y,\left[ {z,x} \right]} \right] + \left[ {z,\left[ {x,y} \right]} \right] = 0.$$ (3) The last condition is called the Jacobi identity. From (1) and (2) it follows that also y ↦ [x,y] is linear for any x ∈ g. In this chapter we shall consider only fini te-dimensional Lie algebras. In any vector space g one can always define a trivial Lie product [x,y] = 0. A Lie algebra …

CombinatoricsPhysicsProduct (mathematics)Simple Lie groupLie algebraCartan decompositionReal formKilling formLie conformal algebraGraded Lie algebra
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Actions de tores algébriques sur des corps de caractéristique zéro

2023

Over an algebraically closed field of characteristic zero, normal affine varieties endowed with an effective torus action were described by Altmann and Hausen in 2006 by a geometrico-combinatorial presentation.Using Galois descent tools, we extend this presentation to the case where the ground field is an arbitrary field of characteristic zero. In this context, the acting torus may be non split and may have non-trivial torsors, thus we need additional data to encode such varieties. We provide some situations where the generalized Altmann-Hausen presentation simplifies. For instance, if the acting torus is split, we recover mutatis mutandis the original Altmann-Hausen presentation. Finally, …

Convex geometryAction of algebraic torusActions de tores algébriquesStructures et formes réellesGéométrie birationnelle[MATH.MATH-GM] Mathematics [math]/General Mathematics [math.GM]Birational geometryGéométrie convexeReal structures and real forms
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Simple and semisimple Lie algebras and codimension growth

1999

Discrete mathematicsAdjoint representation of a Lie algebraPure mathematicsRepresentation of a Lie groupApplied MathematicsGeneral MathematicsSimple Lie groupFundamental representationReal formKilling formKac–Moody algebraAffine Lie algebraMathematicsTransactions of the American Mathematical Society
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Non-integrality of the PI-exponent of special Lie algebras

2013

If L is a special Lie algebra over a field of characteristic zero, its sequence of codimensions is exponentially bounded. The PI-exponent measures the exponential rate of growth of such sequence and here we give a first example of a special Lie algebra whose (upper and lower) PI-exponent is non-integer.

Discrete mathematicsPure mathematicsAdjoint representation of a Lie algebraApplied MathematicsSimple Lie groupLie algebraLie algebraReal formKilling formAffine Lie algebraMathematicsLie conformal algebraGraded Lie algebra
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LEFT INVARIANT COMPLEX STRUCTURES ON NILPOTENT SIMPLY CONNECTED INDECOMPOSABLE 6-DIMENSIONAL REAL LIE GROUPS

2007

Integrable complex structures on indecomposable 6-dimensional nilpotent real Lie algebras have been computed in a previous paper, along with normal forms for representatives of the various equivalence classes under the action of the automorphism group. Here we go to the connected simply connected Lie group G0 associated to such a Lie algebra 𝔤. For each normal form J of integrable complex structures on 𝔤, we consider the left invariant complex manifold G = (G0, J) associated to G0 and J. We explicitly compute a global holomorphic chart for G and we write down the multiplication in that chart.

Discrete mathematicsPure mathematicsAdjoint representation of a Lie algebraRepresentation of a Lie groupGeneral MathematicsSimple Lie groupLie algebraAdjoint representationReal formMathematicsLie conformal algebraGraded Lie algebraInternational Journal of Algebra and Computation
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COMPLEX STRUCTURES ON INDECOMPOSABLE 6-DIMENSIONAL NILPOTENT REAL LIE ALGEBRAS

2007

We compute all complex structures on indecomposable 6-dimensional real Lie algebras and their equivalence classes. We also give for each of them a global holomorphic chart on the connected simply connected Lie group associated to the real Lie algebra and write down the multiplication in that chart.

General MathematicsSimple Lie groupReal formMathematics - Rings and Algebras17B30Killing formAffine Lie algebraLie conformal algebraGraded Lie algebraAlgebra53C15Adjoint representation of a Lie algebraRepresentation of a Lie groupRings and Algebras (math.RA)FOS: Mathematics17B30;53C15MathematicsInternational Journal of Algebra and Computation
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The Minkowski and conformal superspaces

2006

We define complex Minkowski superspace in 4 dimensions as the big cell inside a complex flag supermanifold. The complex conformal supergroup acts naturally on this super flag, allowing us to interpret it as the conformal compactification of complex Minkowski superspace. We then consider real Minkowski superspace as a suitable real form of the complex version. Our methods are group theoretic, based on the real conformal supergroup and its Lie superalgebra.

High Energy Physics - TheoryPure mathematicsFOS: Physical sciencesReal formFísicaStatistical and Nonlinear PhysicsConformal mapLie superalgebraMathematical Physics (math-ph)Mathematics - Rings and AlgebrasSuperspaceHigh Energy Physics::TheoryGeneral Relativity and Quantum CosmologyHigh Energy Physics - Theory (hep-th)Rings and Algebras (math.RA)Mathematics::Quantum AlgebraMinkowski spaceSupermanifoldFOS: MathematicsCompactification (mathematics)Mathematics::Representation TheorySupergroupMathematical PhysicsMathematics
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Real structures on nilpotent orbit closures

2021

We determine the equivariant real structures on nilpotent orbits and the normalizations of their closures for the adjoint action of a complex semisimple algebraic group on its Lie algebra.

Mathematics - Algebraic Geometryreal form14R20 14M17 14P99 11S25 20G20homogeneous spaceMathematics::Rings and Algebrasreal structureGalois cohomology[MATH.MATH-AG] Mathematics [math]/Algebraic Geometry [math.AG]FOS: MathematicsNilpotent orbitMathematics::Representation TheoryAlgebraic Geometry (math.AG)
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