TY - JOUR
T1 - ''Long spin relaxation times in a single-beam blue-detuned optical trap''
AU - Ozeri, R
AU - Khaykovich, L.
AU - Davidson, N
PY - 1999
Y1 - 1999
N2 - A scheme to trap atoms in a blue-detuned optical dipole trap, formed with a single laser beam and a holographic phase plate, is demonstrated. 105 rubidium atoms are trapped for (1/e lifetime) ∼300 msec, at temperatures of ∼24 μK and a density of ∼7×1011atoms/cm3, for a trapping beam detuning of 0.1–30 nm. The time for a trapped atom to scatter one photon off the trapping beam is measured and found to be linear in the trapping laser detuning. At a detuning of 0.5 nm from resonance this time was measured to be ∼100 msec, indicating that the atoms are exposed on average only to ∼1/700 of the maximal light intensity in the trap. The use of a single laser beam allows for simple dynamical changes of the potential and large adiabatic compressions, while keeping the atoms mainly in the dark.
AB - A scheme to trap atoms in a blue-detuned optical dipole trap, formed with a single laser beam and a holographic phase plate, is demonstrated. 105 rubidium atoms are trapped for (1/e lifetime) ∼300 msec, at temperatures of ∼24 μK and a density of ∼7×1011atoms/cm3, for a trapping beam detuning of 0.1–30 nm. The time for a trapped atom to scatter one photon off the trapping beam is measured and found to be linear in the trapping laser detuning. At a detuning of 0.5 nm from resonance this time was measured to be ∼100 msec, indicating that the atoms are exposed on average only to ∼1/700 of the maximal light intensity in the trap. The use of a single laser beam allows for simple dynamical changes of the potential and large adiabatic compressions, while keeping the atoms mainly in the dark.
UR - http://journals.aps.org/pra/abstract/10.1103/PhysRevA.59.R1750
M3 - Article
VL - 59
JO - Physical Review A (Atomic, Molecular and Optical Physics)
JF - Physical Review A (Atomic, Molecular and Optical Physics)
IS - 3
ER -