Second-Scale 9Be+ Spin Coherence in a Compact Penning Trap

Abstract

We report microwave spectroscopy of co-trapped 9Be+ and 40Ca+ within a compact permanent-magnet-based Penning ion trap. The trap is constructed with a reconfigurable array of NdFeB rings providing a 0.654 T magnetic field that is near the 0.6774-T magnetic-field-insensitive hyperfine transition in 9Be+. Performing Ramsey spectroscopy on this hyperfine transition, we demonstrate nuclear spin coherence with a contrast decay time of >1 s. The 9Be+ is sympathetically cooled by a Coulomb crystal of 40Ca+, which minimizes 9Be+ illumination and thus mitigates reactive loss. Introducing a unique high-magnetic-field optical detection scheme for 40Ca+, we perform spin state readout without a 729~nm shelving laser. We record a fractional trap magnetic field instability below 20 ppb (<13 nT) at 43 s of averaging time with no magnetic shielding and only passive thermal isolation. We discuss potential applications of this compact, reconfigurable Penning trap.

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