Abstract
Given a symmetric polynomial $P$ in $2n$ variables, there exists a unique symmetric polynomial $Q$ in $n$ variables such that\[P(x_1,\ldots,x_n,x_1^{-1},\ldots,x_n^{-1})=Q(x_1+x_1^{-1},\ldots,x_n+x_n^{-1}).\] We denote this polynomial $Q$ by $\Phi_n(P)$ and show that $\Phi_n$ is an epimorphism of algebras. We compute $\Phi_n(P)$ for several families of symmetric polynomials $P$: symplectic and orthogonal Schur polynomials, elementary symmetric polynomials, complete homogeneous polynomials, and power sums. Some of these formulas were already found by Elouafi (2014) and Lachaud (2016).
 The polynomials of the form $\Phi_n(\operatorname{s}_{\lambda/\mu}^{(2n)})$, where $\operatorname{s}_{\lambda/\mu}^{(2n)}$ is a skew Schur polynomial in $2n$ variables, arise naturally in the study of the minors of symmetric banded Toeplitz matrices, when the generating symbol is a palindromic Laurent polynomial, and its roots can be written as $x_1,\ldots,x_n,x^{-1}_1,\ldots,x^{-1}_n$. Trench (1987) and Elouafi (2014) found efficient formulas for the determinants of symmetric banded Toeplitz matrices. We show that these formulas are equivalent to the result of Ciucu and Krattenthaler (2009) about the factorization of the characters of classical groups.
Highlights
Introduction and main resultsIn this paper we study symmetric polynomials P in 2n variables evaluated at the symplectic alphabet:P (x1, . . . , xn, x−1 1, . . . , x−n 1). (1)We show how to rewrite such expressions in terms of the “Dickson–Zhukovsky variables” zj := xj + x−j 1
Trench (1987) and Elouafi (2014) found efficient formulas for the determinants of symmetric banded Toeplitz matrices. We show that these formulas are equivalent to the result of Ciucu and Krattenthaler (2009) about the factorization of the characters of classical groups
In this paper we study symmetric polynomials P in 2n variables evaluated at the symplectic alphabet: P (x1, . . . , xn, x−1 1, . . . , x−n 1)
Summary
In this paper we study symmetric polynomials P in 2n variables evaluated at the symplectic alphabet:. If P is a symmetric polynomial in 2n variables, P evaluated at the eigenvalues of A is an expression of the form (1). 3. Given a palindromic Laurent polynomial a, consider the banded symmetric Toeplitz matrices Tm(a) generated by a. We denote by Symn the algebra of symmetric polynomials in n variables. X−n 1) proven in 2009 by Ciucu and Krattenthaler [9] is equivalent to the formulas for banded symmetric Toeplitz determinants, found independently by Trench [31] in 1987 and by Elouafi [11] in 2014. We share the corresponding Sagemath code at the page http://www.egormaximenko.com/programs/tests_palindromic.html
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