Quantum simulation of 2D and 3D spin models in a linear chain of ions

          @misc{ scitalks_19060031,
            doi = {},
            url = {http://pirsa.org/19060031},
            author = {Islam, Kazi-Rajibul},
            keywords = {Quantum Matter},
            language = {en},
            title = {Quantum simulation of 2D and 3D spin models in a linear chain of ions},
            publisher = {Perimeter Institute for Theoretical Physics},
            year = {2019},
            month = {jun},
            note = {19060031 see, \url{https://scitalks.ca/PIRSA/19060031}}
          }
          

Abstract

Trapped ions are among the most advanced technology platforms for quantum information processing, in particular quantum simulation. However, ions are most readily trapped as a linear chain in radio-frequency traps, limiting their use to simulate higher dimensional quantum systems. In this talk, I'll describe an analog and an analog-digital hybrid [1] quantum simulation protocols to simulate programmable 2D and 3D spin models in a linear ion chain, by manipulating phonon-mediated long-ranged interactions between ion spins. The ability to dynamically engineer lattice geometries enables the investigation of a rich variety of physical phenomena such as spin frustration, topological states, and quantum quenches. [1] Rajabi et al., npj Quantum Information 5:32 (2019)