Continuous outcoupling of ultracold strontium atoms combining three different traps
Ryoto Takeuchi, Hayaki Chiba, Shoichi Okaba, Masao Takamoto, S. Tsuji, Hidetoshi Katori
Abstract
Abstract We have demonstrated the continuous outcoupling of ultracold 88 Sr atoms using a moving optical lattice. While Sr atoms are Zeeman-slowed and magneto-optically trapped on the 1 S 0 – 1 P 1 transition, the atoms relaxed to the 5s5p 3 P 2 metastable state are magnetically trapped and Doppler cooled on the 5s5p 3 P 2 –5s4d 3 D 3 transition at 2.92 μ m. By optically pumping the atoms to the 5s5p 3 P 0 state, we outcouple the atoms by a moving optical lattice. Such a continuous atomic source enables superradiant lasers and the zero-dead-time operation of atom interferometers and optical lattice clocks.
Topics & Concepts
MetastabilityOptical latticeStrontiumAtomic physicsPhysicsUltracold atomZeeman effectAtom (system on chip)Lattice (music)Condensed matter physicsMagnetic fieldEmbedded systemSuperfluidityComputer scienceNuclear physicsQuantumAcousticsQuantum mechanicsAdvanced Frequency and Time StandardsCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics Research