Ladder operators and coherent states for multi-step supersymmetric rational extensions of the truncated oscillator

Abstract

We construct ladder operators, C and C, for a multi-step rational extension of the harmonic oscillator on the half plane, x0. These ladder operators connect all states of the spectrum in only infinite-dimensional representations of their polynomial Heisenberg algebra. For comparison, we also construct two different classes of ladder operator acting on this system that form finite-dimensional as well as infinite-dimensional representations of their respective polynomial Heisenberg algebras. For the rational extension, we construct the position wavefunctions in terms of exceptional orthogonal polynomials. For a particular choice of parameters, we construct the coherent states, eigenvectors of C with generally complex eigenvalues, z, as superpositions of a subset of the energy eigenvectors. Then we calculate the properties of these coherent states, looking for classical or non-classical behaviour. We calculate the energy expectation as a function of |z|. We plot position probability densities for the coherent states and for the even and odd cat states formed from these coherent states. We plot the Wigner function for a particular choice of z. For these coherent states on one arm of a beamsplitter, we calculate the two excitation number distribution and the linear entropy of the output state. We plot the standard deviations in x and p and find no squeezing in the regime considered. By plotting the Mandel Q parameter for the coherent states as a function of |z|, we find that the number statistics is sub-Poissonian.