T. H. Baker scite author profile

Multivariable generalizations of the classical Hermite, Laguerre and Jacobi polynomials occur as the polynomial part of the eigenfunctions of certain Schrödinger operators for Calogero-Sutherland-type quantum systems. For the generalized Hermite and Laguerre polynomials the multidimensional analogues of many classical results regarding generating functions, differentiation and integration formulas, recurrence relations and summation theorems are obtained. We use this and related theory to evaluate the global limit of the ground state density, obtaining in the Hermite case the Wigner semi-circle law, and to give an explicit solution for an initial value problem in the Hermite and Laguerre case.

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The Calogero-Sutherland model and polynomials with prescribed symmetry

Baker

Forrester

1997

Nuclear Physics B

127

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The Schrödinger operators with exchange terms for certain Calogero-Sutherland quantum many body systems have eigenfunctions which factor into the symmetric ground state and a multivariable polynomial. The polynomial can be chosen to have a prescribed symmetry (i.e. be symmetric or antisymmetric) with respect to the interchange of some specified variables. For four particular Calogero-Sutherland systems we construct an eigenoperator for these polynomials which separates the eigenvalues and establishes orthogonality. In two of the cases this involves identifying new operators which commute with the corresponding Schrödinger operators. In each case we express a particular class of the polynomials with prescribed symmetry in a factored form involving the corresponding symmetric polynomials.

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Finite-N fluctuation formulas for random matrices

Baker

Forrester

1997

J Stat Phys

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For the Gaussian and Laguerre random matrix ensembles, the probability density function (p.d.f.) for the linear statistic N j=1 x j − x is computed exactly and shown to satisfy a central limit theorem as N → ∞. For the circular random matrix ensemble the p.d.f.'s for the linear statistics 1 2 N j=1 (θ j −π) and − N j=1 log 2| sin θ j /2| are calculated exactly by using a constant term identity from the theory of the Selberg integral, and are also shown to satisfy a central limit theorem as N → ∞.

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Polynomial Eigenfunctions of the Calogero—Sutherland—Moser Models with Exchange Terms

Baker¹,

Dunkl²,

Forrester³

2000

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Nonsymmetric Jack polynomials and integral kernels

Baker¹,

Forrester²

1998

Duke Math. J.

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We investigate some properties of non-symmetric Jack, Hermite and Laguerre polynomials which occur as the polynomial part of the eigenfunctions for certain Calogero-Sutherland models with exchange terms. For the non-symmetric Jack polynomials, the constant term normalization N η is evaluated using recurrence relations, and N η is related to the norm for the non-symmetric analogue of the power-sum inner product. Our results for the non-symmetric Hermite and Laguerre polynomials allow the explicit determination of the integral kernels which occur in Dunkl's theory of integral transforms based on reflection groups of type A and B, and enable many analogues of properties of the classical Fourier, Laplace and Hankel transforms to be derived. The kernels are given as generalized hypergeometric functions based on non-symmetric Jack polynomials. Central to our calculations is the construction of operators Φ and Ψ, which act as lowering-type operators for the non-symmetric Jack polynomials of argument x and x 2 respectively, and are the counterpart to the raising-type operator Φ introduced recently by Knop and Sahi.

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T. H. Baker

The Calogero-Sutherland Model and Generalized Classical Polynomials

The Calogero-Sutherland model and polynomials with prescribed symmetry

Finite-N fluctuation formulas for random matrices

Polynomial Eigenfunctions of the Calogero—Sutherland—Moser Models with Exchange Terms

Nonsymmetric Jack polynomials and integral kernels

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