Continuous matrix product states for coupled fields: Application to Luttinger Liquids and quantum simulators

Abstract

A way of constructing continuous matrix product states (cMPS) for coupled fields is presented here. The cMPS is a variational ansatz for the ground state of quantum field theories in one dimension. Our proposed scheme is based in the physical interpretation in which the cMPS class can be produced by means of a dissipative dynamic of a system interacting with a bath. We study the case of coupled bosonic fields. We test the method with previous DMRG results in coupled Lieb Liniger models. Besides, we discuss a novel application for characterizing the Luttinger liquid theory emerging in the low energy regime of these theories. Finally, we propose a circuit QED architecture as a quantum simulator for coupled fields.