First laser-controlled antihydrogen production

First laser-controlled antihydrogen production

Lasers are used for the first time to control the production of antihydrogen (H ). Sequential, resonant charge exchange collisions are involved in a method that is very different than the only other method used so far-producing slow H during positron cooling of antiprotons in a nested Penning trap....

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Veröffentlicht in:Physical review letters 2004-12, Vol.93 (26), p.263401.1-263401.4, Article 263401
Hauptverfasser: STORRY, C. H, SPECK, A, HERRMANN, M, WALZ, J, HÄNSCH, T. W, COMEAU, D, HESSELS, E. A, LE SAGE, D, GUISE, N, GABRIELSE, G, GRZONKA, D, OELERT, W, SCHEPERS, G, SEFZICK, T, PITTNER, H
Format: Artikel
Sprache:eng
Schlagworte:
Atomic and molecular collision processes and interactions
Atomic and molecular physics
Charge transfer
Exact sciences and technology
Exotic atoms and molecules (containing mesons, muons, and other unusual particles)
Physics
Studies of special atoms, molecules and their ions
clusters
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Zusammenfassung:Lasers are used for the first time to control the production of antihydrogen (H ). Sequential, resonant charge exchange collisions are involved in a method that is very different than the only other method used so far-producing slow H during positron cooling of antiprotons in a nested Penning trap. Two attractive features are that the laser frequencies determine the H binding energy, and that the production of extremely cold H should be possible in principle-likely close to what is needed for confinement in a trap, as needed for precise laser spectroscopy.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.93.263401