Title: Efficient Generation of Symmetric Entanglement Classes in Trapped Ions
Speaker: Lucas Lamata
Abstract: We propose a method of generating arbitrary symmetric states of N qubits and operationally producing their entanglement classes, in trapped ions. We encode the qubits in two metastable levels of the ions and use the motional center of mass mode as intermediate system for creating the states. The method is deterministic and relies on a sequence of unitary gates on a set of qubits within the coherence time of the global system. This protocol allows to establish a link between symmetric entanglement classes and experimental parameters in trapped-ion setups.