Ground-state cooling of a single atom at the center of an optical cavity

Ground-state cooling of a single atom at the center of an optical cavity

A single neutral atom is trapped in a three-dimensional optical lattice at the center of a high-finesse optical resonator. Using fluorescence imaging and a shiftable standing-wave trap, the atom is deterministically loaded into the maximum of the intracavity field where the atom-cavity coupling is s...

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Veröffentlicht in:Physical review letters 2013-05, Vol.110 (22), p.223003-223003, Article 223003
Hauptverfasser: Reiserer, Andreas, Nölleke, Christian, Ritter, Stephan, Rempe, Gerhard
Format: Artikel
Sprache:eng
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Zusammenfassung:A single neutral atom is trapped in a three-dimensional optical lattice at the center of a high-finesse optical resonator. Using fluorescence imaging and a shiftable standing-wave trap, the atom is deterministically loaded into the maximum of the intracavity field where the atom-cavity coupling is strong. After 5 ms of Raman sideband cooling, the three-dimensional motional ground state is populated with a probability of (89±2)%. Our system is the first to simultaneously achieve quantum control over all degrees of freedom of a single atom: its position and momentum, its internal state, and its coupling to light.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.110.223003