Doppler cooling and trapping on forbidden transitions

Doppler cooling and trapping on forbidden transitions

Ultracold atoms at temperatures close to the recoil limit have been achieved by extending Doppler cooling to forbidden transitions. A cloud of (40)Ca atoms has been cooled and trapped to a temperature as low as 6 microK by operating a magnetooptical trap on the spin-forbidden intercombination transi...

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Veröffentlicht in:Physical review letters 2001-09, Vol.87 (12), p.123002-123002, Article 123002
Hauptverfasser: Binnewies, T, Wilpers, G, Sterr, U, Riehle, F, Helmcke, J, Mehlstäubler, T E, Rasel, E M, Ertmer, W
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Sprache:eng
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Zusammenfassung:Ultracold atoms at temperatures close to the recoil limit have been achieved by extending Doppler cooling to forbidden transitions. A cloud of (40)Ca atoms has been cooled and trapped to a temperature as low as 6 microK by operating a magnetooptical trap on the spin-forbidden intercombination transition. Quenching the long-lived excited state with an additional laser enhanced the scattering rate by a factor of 15, while a high selectivity in velocity was preserved. With this method, more than 10% of precooled atoms from a standard magnetooptical trap have been transferred to the ultracold trap. Monte Carlo simulations of the cooling process are in good agreement with the experiments.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.87.123002