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  • American Institute of Physics (AIP)  (5)
  • 1
    Electronic Resource
    Electronic Resource
    Equations of motion and wave functions in spherical coordinates for an integrable Hamiltonian system (1989)
    College Park, Md. : American Institute of Physics (AIP)
    Journal of Mathematical Physics 30 (1989), S. 313-317 
    Details
    ISSN: 1089-7658
    Source: AIP Digital Archive
    Topics: Mathematics , Physics
    Notes: The classical equations of motion for the Hamiltonian H=∑nμ=0 (y2μ/2+u2μ/x2μ) (where ∑μ x2μ=1, yμ is the conjugate momentum to xμ, and uμ is constant) are solved by separation of variables, in spherical coordinates, in the Hamilton–Jacobi equation. This flow is related to the one obtained from the projection of geodesic (free) flow on the sphere S2n+1. Wave functions for the quantum case together with the level degeneracy for the generic case uμ≠0 are also given.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.528447
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  • 2
    Electronic Resource
    Electronic Resource
    Superposition formulas for nonlinear superequations (1990)
    College Park, Md. : American Institute of Physics (AIP)
    Journal of Mathematical Physics 31 (1990), S. 2528-2534 
    Details
    ISSN: 1089-7658
    Source: AIP Digital Archive
    Topics: Mathematics , Physics
    Notes: Nonlinear superequations, for which the general solution can be expressed algebraically in terms of a finite number of particular solutions, are obtained. They are based on the orthosymplectic supergroup OSP(m,2n) and its action on a homogeneous superspace. Superposition formulas are discussed for the cases m=1, n arbitrary, and m=2, n=1. For OSP(2,2) the number of particular solutions needed to reconstruct the general solution depends on the dimension of the underlying Grassmann algebra, whereas for OSP(1,2n) it does not.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.528997
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  • 3
    Electronic Resource
    Electronic Resource
    Nonlinear equations with superposition formulas and exceptional group G2. III. The superposition formulas (1988)
    College Park, Md. : American Institute of Physics (AIP)
    Journal of Mathematical Physics 29 (1988), S. 2145-2155 
    Details
    ISSN: 1089-7658
    Source: AIP Digital Archive
    Topics: Mathematics , Physics
    Notes: Superposition formulas are derived expressing the general solution of several different systems of nonlinear ordinary differential equations in terms of a fundamental set of particular solutions. The equations, as well as the superposition formulas, are induced by the action of the exceptional Lie group G2 (complex or real) on a homogeneous space G2/G, where G⊆G2 is a maximal subgroup of G2. When G is either parabolic, or simple, three particular solutions are needed. When G is SL(2,C)×SL(2,C) (or one of its real forms), then two particular solutions suffice.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.528141
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  • 4
    Electronic Resource
    Electronic Resource
    Reductions by isometries of the self-dual Yang–Mills equations in four-dimensional Euclidean space (1993)
    College Park, Md. : American Institute of Physics (AIP)
    Journal of Mathematical Physics 34 (1993), S. 3245-3268 
    Details
    ISSN: 1089-7658
    Source: AIP Digital Archive
    Topics: Mathematics , Physics
    Notes: A classification of the subgroups of the four-dimensional Euclidean group is given. The (anti-) self-dual Yang–Mills equations in four-dimensional Euclidean space are then reduced for each class representative and for any gauge group when a strict invariance of the gauge fields is required, or for the gauge group SO(3) if the gauge fields remain invariant up to gauge transformations. Amongst the residual systems, many constitute sets of first order ordinary differential equations sharing the Painlevé property.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.530074
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  • 5
    Electronic Resource
    Electronic Resource
    Abelian integrals and the reduction method for an integrable Hamiltonian system (1985)
    College Park, Md. : American Institute of Physics (AIP)
    Journal of Mathematical Physics 26 (1985), S. 1605-1612 
    Details
    ISSN: 1089-7658
    Source: AIP Digital Archive
    Topics: Mathematics , Physics
    Notes: A classical finite-dimensional integrable Hamiltonian system, corresponding to the motion of a particle constrained to an n-dimensional sphere ∑nμ=0 x2μ=1, with the Hamiltonian H=∑μ( (1)/(2) y2μ+u2μ/x2μ +εαμx2μ) (where uμ, αμ, and ε are constants and yμ are the momenta conjugate to xμ), is integrated using several different methods. These are the following: (1) The projection of geodesic (free) flow on a larger space, namely the sphere S2n+1 (for ε=0). The flow is obtained in terms of elementary functions. (2) Separation of variables in the Hamilton–Jacobi equation in elliptic coordinates or, alternatively, the use of a complete set of integrals of motion in involution to reduce Hamilton's equations to quadratures. The flow is obtained in terms of Abelian integrals which are then inverted in terms of generalized θ functions. The relation between the different methods and results is clarified using methods of algebraic geometry, in particular the geometry of quadrics.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.526926
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