Fine-Structure Qubit Encoded in Metastable Strontium Trapped in an Optical Lattice
Sebastian Pucher, V. Klüsener, F. Spriestersbach, J. Geiger, Andreas Schindewolf, Immanuel Bloch, Sebastian Blatt
Abstract
We demonstrate coherent control of the fine-structure qubit in neutral strontium atoms. This qubit is encoded in the metastable ^{3}P_{2} and ^{3}P_{0} states, coupled by a Raman transition. Using a magnetic quadrupole transition, we demonstrate coherent state initialization of this THz qubit. We show Rabi oscillations with more than 60 coherent cycles and single-qubit rotations on the μs scale. With spin echo, we demonstrate coherence times of tens of ms. Our results pave the way for fast quantum information processors and highly tunable quantum simulators with two-electron atoms.
Topics & Concepts
QubitMetastabilityPhysicsPhase qubitCharge qubitCoherence (philosophical gambling strategy)Flux qubitOptical latticeAtomic physicsQuadrupoleRabi cycleCoherent controlCoherence timeStrontiumQuantumQuantum mechanicsSuperfluidityNuclear physicsQuantum optics and atomic interactionsAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein Condensates