4,363 research outputs found

    Tridiagonal realization of the anti-symmetric Gaussian β\beta-ensemble

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    The Householder reduction of a member of the anti-symmetric Gaussian unitary ensemble gives an anti-symmetric tridiagonal matrix with all independent elements. The random variables permit the introduction of a positive parameter β\beta, and the eigenvalue probability density function of the corresponding random matrices can be computed explicitly, as can the distribution of {qi}\{q_i\}, the first components of the eigenvectors. Three proofs are given. One involves an inductive construction based on bordering of a family of random matrices which are shown to have the same distributions as the anti-symmetric tridiagonal matrices. This proof uses the Dixon-Anderson integral from Selberg integral theory. A second proof involves the explicit computation of the Jacobian for the change of variables between real anti-symmetric tridiagonal matrices, its eigenvalues and {qi}\{q_i\}. The third proof maps matrices from the anti-symmetric Gaussian β\beta-ensemble to those realizing particular examples of the Laguerre β\beta-ensemble. In addition to these proofs, we note some simple properties of the shooting eigenvector and associated Pr\"ufer phases of the random matrices.Comment: 22 pages; replaced with a new version containing orthogonal transformation proof for both cases (Method III

    Exact calculation of the ground state single-particle Green's function for the 1/r21/r^2 quantum many body system at integer coupling

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    The ground state single particle Green's function describing hole propagation is calculated exactly for the 1/r21/r^2 quantum many body system at integer coupling. The result is in agreement with a recent conjecture of Haldane.Comment: Late

    Normalization of the wavwfunction for the Calogero-Sutherland model with internal degrees of freedom

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    The exact normalization of a multicomponent generalization of the ground state wavefunction of the Calogero-Sutherland model is conjectured. This result is obtained from a conjectured generalization of Selberg's NN-dimensional extension of the Euler beta integral, written as a trigonometric integral. A new proof of the Selberg integral is given, and the method is used to provide a proof of the mulicomponent generalization in a special two-component case.Comment: 16 pgs, latex, no figures, submitted Int. J. of Mod. Phys.
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