Search results for "22E7"

showing 4 items of 4 documents

Mapping the geometry of the F(4) group.

2007

In this paper we present a construction of the compact form of the exceptional Lie group F4 by exponentiating the corresponding Lie algebra f4. We realize F4 as the automorphisms group of the exceptional Jordan algebra, whose elements are 3 x 3 hermitian matrices with octonionic entries. We use a parametrization which generalizes the Euler angles for SU(2) and is based on the fibration of F4 via a Spin(9) subgroup as a fiber. This technique allows us to determine an explicit expression for the Haar invariant measure on the F4 group manifold. Apart from shedding light on the structure of F4 and its coset manifold OP2=F4/Spin(9), the octonionic projective plane, these results are a prerequisi…

High Energy Physics - TheoryJordan algebraGroup (mathematics)General MathematicsGeneral Physics and AstronomyLie groupFOS: Physical sciencesGeometryMathematical Physics (math-ph)AutomorphismHigh Energy Physics - Theory (hep-th)22E70Lie algebraCoset22E46Projective planeSpecial unitary groupMathematical PhysicsMathematics22E46; 22E70
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Quantum moment maps and invariants for G-invariant star products

2002

We study a quantum moment map and propose an invariant for $G$-invariant star products on a $G$-transitive symplectic manifold. We start by describing a new method to construct a quantum moment map for $G$-invariant star products of Fedosov type. We use it to obtain an invariant that is invariant under $G$-equivalence. In the last section we give two simple examples of such invariants, which involve non-classical terms and provide new insights into the classification of $G$-invariant star products.

Pure mathematicsStatistical and Nonlinear Physics37Kxx22E7Mathematics - Quantum AlgebraFOS: MathematicsQuantum Algebra (math.QA)16S3022E46Invariant (mathematics)16S8916S89; 16S30; 37Kxx; 22E46; 22E7Moment mapQuantumMathematical PhysicsSymplectic manifoldMathematics
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Reconstruction of Hamiltonians from given time evolutions

2010

In this paper we propose a systematic method to solve the inverse dynamical problem for a quantum system governed by the von Neumann equation: to find a class of Hamiltonians reproducing a prescribed time evolution of a pure or mixed state of the system. Our approach exploits the equivalence between an action of the group of evolution operators over the state space and an adjoint action of the unitary group over Hermitian matrices. The method is illustrated by two examples involving a pure and a mixed state.

Quantum PhysicsGroup (mathematics)Time evolutionFOS: Physical sciencesState (functional analysis)Group Theory (math.GR)Condensed Matter PhysicsHermitian matrixAtomic and Molecular Physics and OpticsAction (physics)Invers problems time dependent hamiltonian22E70 81R05 93B15Unitary groupQuantum systemFOS: MathematicsState spaceApplied mathematicsQuantum Physics (quant-ph)Mathematics - Group TheoryMathematical PhysicsMathematics
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Algebraic quantization on a group and nonabelian constraints

1989

A generalization of a previous group manifold quantization formalism is proposed. In the new version the differential structure is circumvented, so that discrete transformations in the group are allowed, and a nonabelian group replaces the ordinary (central)U(1) subgroup of the Heisenberg-Weyl-like quantum group. As an example of the former we obtain the wave functions associated with the system of two identical particles, and the latter modification is used to account for the Virasoro constraints in string theory.

Quantum group58D30Differential structureStatistical and Nonlinear PhysicsString theoryAlgebra58F0622E7081D07Operator algebraUnitary group81E30Algebraic numberQuantum field theoryMathematical PhysicsIdentical particlesMathematicsCommunications in Mathematical Physics
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