 Spin domains in ground-state Bose–Einstein condensatesJ. Stenger (),
S. Inouye,
D. M. Stamper-Kurn,
H.-J. Miesner,
A. P. Chikkatur and
W. Ketterle
Nature, 1998, vol. 396, issue 6709, 345-348 Abstract: Abstract Bose–Einstein condensates — a low-temperature form of matter in which a macroscopic population of bosons occupies the quantum-mechanical ground state — have been demonstrated for weakly interacting, dilute gases of alkali-metal1,2,3 and hydrogen25 atoms. Magnetic traps are usually employed to confine the condensates, but have the drawback that spin flips in the atoms lead to untrapped states. For this reason, the spin orientation of the trapped alkali atoms cannot be regarded as a degree of freedom. Such condensates are therefore described by a scalar order parameter, like the spinless superfluid 4He. In contrast, a recently realized optical trap4 for sodium condensates confines atoms independently of their spin orientations. This offers the possibility of studying ‘spinor’ condensates in which spin comprises a degree of freedom, so that the order parameter is a vector rather than scalar quantity. Here we report the observation of equilibrium states of sodium spinor condensates in an optical trap. The freedom of spin orientation leads to the formation of spin domains in an external magnetic field, which can be either miscible or immiscible with one another. Date: 1998 Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:nat:nature:v:396:y:1998:i:6709:d:10.1038_24567 Ordering information: This journal article can be ordered from DOI: 10.1038/24567 Access Statistics for this article Nature is currently edited by Magdalena Skipper More articles in Nature from Nature |
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