Quantum state preparation for trapped-ion qubits often relies on high-quality circularly-polarised light, which may be difficult to achieve with chip-based integrated optics technology. We propose and implement a hybrid optical/microwave scheme for intermediate-field hyperfine qubits which instead relies on frequency selectivity. Experimentally, we achieve 99.94% fidelity for linearly-polarised (σ+/σ−) light, using 43Ca+ at 28.8 mT. We find that the fidelity remains above 99.8% for a mixture of all polarisations (σ+/σ−/π). We calculate that the method is capable of 99.99% fidelity in 43Ca+, and even higher fidelities in heavier ions such as 137Ba+.
@article{arxiv.2406.14448,
title = {Polarisation-insensitive state preparation for trapped-ion hyperfine qubits},
author = {A. D. Leu and M. C. Smith and M. F. Gely and D. M. Lucas},
journal= {arXiv preprint arXiv:2406.14448},
year = {2025}
}