Novel Ion Traps for Enhanced Fluorescence Collections and Single Photon Sources Based on Barium Ions

Abstract

Efficient ion-photon interface is critical for ion-photon and ion-ion entanglement generation, which are the fundamental building blocks for loophole-free Bell inequality violation tests based on ion qubits, and for the quantum computer architecture based on ion-photon networks. As one approach to address the problem, the feasibility of integrating reflective optics into ion trap to increase free-space photon interception is studied. The development and operation of two novel ion traps are demonstrated: one integrates a spherical mirror with a linear quadrapole trap, and the other combines the optical surface with the RF electrode. The possibility of using aspherical optics to improve ion images is studied and partially implemented. A continuously excited single photon source based on 138Ba+ ion is demonstrated and calibrated. Methods of scaling up current design are also discussed.