On matrix product ansatz for Asymmetric Simple Exclusion Process with open boundary in the singular case

Abstract

We study a substitute for the matrix product ansatz for Asymmetric Simple Exclusion Process with open boundary in the ``singular case'' αβ=qNγδ, when the standard form of the matrix product ansatz of Derrida, Evans, Hakim and Pasquier does not apply. In our approach, the matrix product ansatz is replaced with a pair of linear functionals on an abstract algebra. One of the functionals, 1, is defined on the entire algebra, and determines stationary probabilities for large systems on L≥ N+1 sites. The other functional, 0, is defined only on a finite-dimensional linear subspace of the algebra, and determines stationary probabilities for small systems on L< N+1 sites. Functional 0 vanishes on non-constant Askey-Wilson polynomials and in non-singular case becomes an orthogonality functional for the Askey-Wilson polynomials.