Remote entanglement of ¹³⁸Ba⁺ ions in separate traps using visible photons

Trapped atomic ions are one of the leading platforms for quantum computing systems and quantum networks. We report progress on one building block of a trapped-ion quantum network, the remote entanglement of ions in two separate vacuum chambers. Single photons at 493 nm are collected from a ¹³⁸Ba⁺ ion in each trap using high numerical aperture (NA=0.6) optics, and Hong-Ou-Mandel interference erases which-path information. Then, a Bell state measurement of the photons heralds entanglement of the two remote qubits. We verify this entanglement by measuring the correlations of the ion states in multiple bases. We present preliminary results for entanglement generation rate and fidelity and also speculate on how this system will scale to larger and more modules.