Submillikelvin Dipolar Molecules in a Radio-Frequency Magneto-Optical Trap

Submillikelvin Dipolar Molecules in a Radio-Frequency Magneto-Optical Trap

We demonstrate a scheme for magneto-optically trapping strontium monofluoride (SrF) molecules at temperatures one order of magnitude lower and phase space densities 3 orders of magnitude higher than obtained previously with laser-cooled molecules. In our trap, optical dark states are destabilized by...

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Veröffentlicht in:Physical review letters 2016-02, Vol.116 (6), p.063004-063004, Article 063004
Hauptverfasser: Norrgard, E B, McCarron, D J, Steinecker, M H, Tarbutt, M R, DeMille, D
Format: Artikel
Sprache:eng
Schlagworte:
Laser cooling
Lasers
Magnetic fields
Polarization
Reversing
Space density
Strontium
Trapping
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Zusammenfassung:We demonstrate a scheme for magneto-optically trapping strontium monofluoride (SrF) molecules at temperatures one order of magnitude lower and phase space densities 3 orders of magnitude higher than obtained previously with laser-cooled molecules. In our trap, optical dark states are destabilized by rapidly and synchronously reversing the trapping laser polarizations and the applied magnetic field gradient. The number of molecules and trap lifetime are also significantly improved from previous work by loading the trap with high laser power and then reducing the power for long-term trapping. With this procedure, temperatures as low as 400  μK are achieved.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.116.063004