Multipartite entanglement in the development of a hybrid classical/quantum event generator

Recently, there has been great interest surrounding hybrid event generators which integrate classical methods with quantum devices.  There is an ongoing project in this direction (QuPYTH) which replaces the hadronization from PYTHIA with real-time evolution of Rydberg ladder results.  Additionally, work has been done to show that using ditstring returns from a quantum device to get a system's mutual information can approximate both the quantum bipartite and multipartite entanglement entropy.  Inspired by the work of Lin and McGreevy in conformal field theory, we have implemented these approximations to identify critical points in 1+1D models.  Given recent results correlating bipartite entanglement with particle production in hadronization models, we take the previous advancements as motivation and aim to utilize multipartite entanglement results from quantum devices for multiparticle interpretations.  We briefly discuss the above work and how it leads to the multiparticle approach in the next steps towards our proposed hybrid event generator.