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Literature DB >> 12934014

Preparation of a pure molecular quantum gas.

Jens Herbig¹, Tobias Kraemer, Michael Mark, Tino Weber, Cheng Chin, Hanns-Christoph Nägerl, Rudolf Grimm.

Abstract

An ultracold molecular quantum gas is created by application of a magnetic field sweep across a Feshbach resonance to a Bose-Einstein condensate of cesium atoms. The ability to separate the molecules from the atoms permits direct imaging of the pure molecular sample. Magnetic levitation enables study of the dynamics of the ensemble on extended time scales. We measured ultralow expansion energies in the range of a few nanokelvin for a sample of 3000 molecules. Our observations are consistent with the presence of a macroscopic molecular matter wave.

Entities: Chemical

Year: 2003 PMID： 12934014 DOI： 10.1126/science.1088876

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

2 in total

1. Evidence for the association of triatomic molecules in ultracold ²³Na⁴⁰K + ⁴⁰K mixtures.

Authors: Huan Yang; Xin-Yao Wang; Zhen Su; Jin Cao; De-Chao Zhang; Jun Rui; Bo Zhao; Chun-Li Bai; Jian-Wei Pan
Journal: Nature Date: 2022-02-09 Impact factor: 69.504

2. From molecular spectra to a density shift in dense Rydberg gases.

Authors: A Gaj; A T Krupp; J B Balewski; R Löw; S Hofferberth; T Pfau
Journal: Nat Commun Date: 2014-08-01 Impact factor: 14.919

2 in total

Preparation of a pure molecular quantum gas.

1. Evidence for the association of triatomic molecules in ultracold 23Na40K + 40K mixtures.

2. From molecular spectra to a density shift in dense Rydberg gases.

1. Evidence for the association of triatomic molecules in ultracold ²³Na⁴⁰K + ⁴⁰K mixtures.