Preparation of the single-spinon wave function in a quantum computer

Abstract

We consider the preparation of single-spinon wave functions, relevant for one-dimensional S=1/2 spin models, in a quantum computer. We adopt the recently proposed ansatz kulk for the single-spinon wave function, where a state with S=1/2 is built in a spin chain with L+1 sites, adding a site with Sz=1/2 to the configurations of the ground-state wave function for the spin chain with length L. We extend the original work to the case of the Haldane-Shastry model. We discuss how to prepare the single-spinon ansatz both for the Heisenberg and Haldane-Shastry models in quantum computers, using a linear combination of unitaries. We consider three different strategies to compute the single-spinon energy in a quantum computer and analyze their cost in terms of the number of qubits, gates, and circuits.