2015
DOI: 10.1007/s00340-015-6243-5
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Simple method for producing Bose–Einstein condensates of metastable helium using a single-beam optical dipole trap

Abstract: Alternatively, one loads the atoms first in a magnetic trap and performs evaporative cooling and afterward transfers a dense and compact atomic cloud into an ODT, which now requires a much lower ODT power, at the expense of experimental complexity. Within this last category, a very elegant approach is the hybrid trap (HT), introduced in Ref.[1], consisting of a simple quadrupole magnetic trap (QMT) and a single-beam ODT. Efficient evaporation and BoseEinstein condensation (BEC) have been demonstrated (see, e.g… Show more

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Cited by 6 publications
(18 citation statements)
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References 29 publications
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“…In this way, we extract temperatures of 0.62(2) and 0.51(2) µK W −1 respectively. This is approximately a factor 10 lower than the calculated trap depth and corresponds to a truncation parameter η = 10 which is typically found in a thermalized trapped gas [29].…”
Section: Hybrid Trapmentioning
confidence: 62%
See 2 more Smart Citations
“…In this way, we extract temperatures of 0.62(2) and 0.51(2) µK W −1 respectively. This is approximately a factor 10 lower than the calculated trap depth and corresponds to a truncation parameter η = 10 which is typically found in a thermalized trapped gas [29].…”
Section: Hybrid Trapmentioning
confidence: 62%
“…The quadrupole field has a strong axis gradient of 0.54 Gauss/ cm, but gravity acts in a direction perpendicular to this axis. In this direction, the gradient is only half the magnitude which is well below the leviation gradient of mg/µ = 0.351 Gauss/cm [29]. Below this gradient gravity is stronger than the confining magnetic force so that atoms are not trapped in the absence of the UV beam.…”
Section: Hybrid Trapmentioning
confidence: 87%
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“…Details of our experimental setup have been given in reference [57] [59], in which we implement a hybrid trap (single-beam optical dipole trap combined with a weak quadrupole magnetic trap) to achieve Bose-Einstein condensation of 87 Rb and reference [60], where we demonstrate the production of 4 He * Bose-Einstein condensates in a single-beam optical dipole trap. In this paper, we focus on the scheme that is relevant for simultaneous loading of the two atomic species in an optical dipole trap.…”
Section: Methodsmentioning
confidence: 99%
“…In the following subsections, we briefly describe the different stages involved in the preparation of our ultracold mixture and discuss important issues regarding simultaneous loading as compared to our single-species experiments [59,60] and previous mixture experiment [57]. We also describe our simultaneous detection scheme and explain the preparation of different spin-state samples using MW and RF frequency sweeps.…”
Section: Methodsmentioning
confidence: 99%