Synthesizing a σz spin-dependent force for optical, metastable, and ground state trapped-ion qubits
Abstract
A single bichromatic field near-resonant to a qubit transition is typically used for σx or σy Mlmer-Srensen type interactions in trapped ion systems. Using this field configuration, it is also possible to synthesize a σz spin-dependent force by merely adjusting the beat-note frequency. Here, we expand on previous work and present a comprehensive theoretical and experimental investigation of this scheme with a laser near-resonant to a quadrupole transition in 88Sr+. Further, we characterise its robustness to optical phase and qubit frequency offsets, and demonstrate its versatility by entangling optical, metastable, and ground state qubits.
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