State-Dependent Optical Lattices for the Strontium Optical Qubit
A. Heinz, A. J. Park, Neven Šantić, Jan Trautmann, S. G. Porsev, M. S. Safronova, Immanuel Bloch, Sebastian Blatt
Abstract
We demonstrate state-dependent optical lattices for the Sr optical qubit at the tune-out wavelength for its ground state. We tightly trap excited state atoms while suppressing the effect of the lattice on ground state atoms by more than 4 orders of magnitude. This highly independent control over the qubit states removes inelastic excited state collisions as the main obstacle for quantum simulation and computation schemes based on the Sr optical qubit. Our results also reveal large discrepancies in the atomic data used to calibrate the largest systematic effect of Sr optical lattice clocks.
Topics & Concepts
Optical latticeQubitPhysicsExcited statePhase qubitAtomic physicsStrontiumQuantum computerCharge qubitGround stateFlux qubitLattice (music)QuantumQuantum mechanicsSuperfluidityAcousticsNuclear physicsCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsAtomic and Subatomic Physics Research