Caroline Robin, Bielefeld University

Understanding how many-body structure and dynamics are rooted in quantum information is key to building simulation algorithms that faithfully capture the complexity of these phenomena while optimally distributing computation across classical and quantum resources.

In this talk, I will examine aspects of many-body quantum complexity, including multipartite entanglement and non-stabilizerness, in systems relevant to nuclear physics and related areas. I will discuss their connection to emergent collective behaviors, such as deformation and superfluidity, and explore how these insights can be leveraged in the development of resource-efficient classical-quantum simulations.